async def main():
app = web.Application()
app.router.add_route('GET', '/', index)
app.router.add_route('GET', '/checkStatus', check_status)
app.router.add_route('POST', '/runMonitor', run_monitor)
app.router.add_route('POST', '/getMonitor', get_monitor)
app.router.add_route('GET', '/getGC/{port}', get_gc)
runner = web.AppRunner(app)
await runner.setup()
site = web.TCPSite(runner, cfg.getServer('host'), cfg.getServer('port'))
await site.start()
async def main():
app = web.Application()
aiohttp_jinja2.setup(
app, loader=jinja2.FileSystemLoader('templates')) # 将模板添加到搜索路径
app.router.add_static('/static/',
path=os.path.join(
os.path.dirname(os.path.abspath(__file__)),
'static')) # 将静态文件添加到搜索路径
app.router.add_route('GET', '/', index)
app.router.add_route('GET', '/startMonitor', start_monitor)
app.router.add_route('GET', '/getMonitor/{host}', get_monitor)
app.router.add_route('GET', '/Visualize', visualize)
app.router.add_route('GET', '/getPortAndDisk/{host}', get_port_disk)
app.router.add_route('POST', '/Register', registers)
app.router.add_route('POST', '/runMonitor', run_monitor)
app.router.add_route('POST', '/plotMonitor', plot_monitor)
app.router.add_route('POST', '/Notification', notice)
runner = web.AppRunner(app)
await runner.setup()
# site = web.TCPSite(runner, cfg.getServer('host'), cfg.getServer('port'))
site = web.TCPSite(runner, get_ip(), cfg.getServer('port'))
await site.start()
async def stop_monitor(request):
pid = port_to_pid(cfg.getServer('port'))
if pid:
_ = os.popen(f'kill -9 {pid}')
logger.info('Stop the client successfully!')
return web.Response(body='Stop the client successfully!')
else:
return web.Response(body='Client is not running!')
async def get_monitor(request):
"""
获取监控端口列表
:param request:
:return:
"""
data = await request.json()
host = data.get('host')
if host == cfg.getServer('host'):
msg = permon.start
if len(msg['port']) > 0: # 是否监控过端口
data = {'host': [host] * len(msg['port'])}
data.update(msg)
return web.json_response({'code': 0, 'msg': '操作成功', 'data': data})
else:
logger.error('暂未监控任何端口')
return web.json_response({
'code': 1,
'msg': '暂未监控任何端口',
'data': {
'host': host,
'port': None,
'pid': None
}
})
else:
logger.error('请求参数异常')
return web.json_response({
'code': 2,
'msg': '请求参数异常',
'data': {
'host': host,
'port': None,
'pid': None
}
})
def notification(msg):
"""
发送邮件通知
:param msg: 邮件正文信息
:return:
"""
url = f'http://{cfg.getMaster("host")}:{cfg.getMaster("port")}/Notification'
header = {
"Accept": "application/json, text/plain, */*",
"Accept-Encoding": "gzip, deflate",
"Content-Type": "application/json; charset=UTF-8"
}
post_data = {'host': cfg.getServer('host'), 'msg': msg}
logger.debug(f'发送邮件信息的内容:{msg}')
res = requests.post(url=url, json=post_data, headers=header)
if res.status_code == 200:
response = json.loads(res.content.decode())
if response['code'] == 0:
logger.info('邮件发送成功')
else:
logger.error(response['msg'])
else:
logger.error('邮件发送失败')
async def run_monitor(request):
"""
开始监控接口
:param request:
:return:
"""
try:
data = await request.json()
host = data.get('host')
port = data.get('port')
network = data.get('net')
is_run = data.get('isRun')
if host == cfg.getServer('host'):
if port:
pid = port_to_pid(port) # 根据端口号查询进程号
if pid is None:
logger.warning(f"端口 {port} 未启动!")
return web.json_response({
'code': 1,
'msg': f"端口 {port} 未启动!",
'data': {
'host': host,
'port': port,
'pid': None
}
})
if is_run == '0': # 如果是停止监控
if port in permon.stop['port']: # 端口是否监控过
permon.stop = {
'port': port,
'pid': pid,
'net': network,
'is_run': 0
}
logger.info('停止监控成功!')
return web.json_response({
'code': 0,
'msg': '停止监控成功!',
'data': {
'host': host,
'port': port,
'pid': pid
}
})
else:
logger.warning(f"端口 {port} 未监控,请先监控!")
return web.json_response({
'code': 1,
'msg': f"端口 {port} 未监控,请先监控!",
'data': {
'host': host,
'port': port,
'pid': pid
}
})
if is_run == '1': # 如果是开始监控
permon.start = {'port': port, 'pid': pid, 'is_run': 1}
logger.info('开始监控成功!')
return web.json_response({
'code': 0,
'msg': '开始监控成功!',
'data': {
'host': host,
'port': port,
'pid': pid
}
})
else:
logger.error('请求参数异常')
return web.json_response({
'code': 2,
'msg': '请求参数异常',
'data': {
'host': host,
'port': port,
'pid': None
}
})
else:
logger.error('请求参数异常')
return web.json_response({
'code': 2,
'msg': '请求参数异常',
'data': {
'host': host,
'port': port,
'pid': None
}
})
except Exception as err:
logger.error(err)
logger.error(traceback.format_exc())
return web.json_response({
'code': 2,
'msg': err,
'data': {
'host': cfg.getServer('host'),
'port': None,
'pid': None
}
})
def __init__(self):
self.check_sysstat_version()
self.IP = get_ip()
self.thread_pool = cfg.getServer(
'threadPool') if cfg.getServer('threadPool') >= 0 else 0
self._msg = {
'port': [],
'pid': [],
'isRun': [],
'startTime': []
} # port、pid、status、startTime
self.is_system = cfg.getMonitor(
'isMonSystem') # Whether to monitor the server system
self.error_times = cfg.getMonitor('errorTimes')
self.sleepTime = cfg.getMonitor('sleepTime')
self.maxCPU = cfg.getMonitor('maxCPU')
self.CPUDuration = cfg.getMonitor('CPUDuration')
self.isCPUAlert = cfg.getMonitor('isCPUAlert')
self.minMem = cfg.getMonitor('minMem')
self.isMemAlert = cfg.getMonitor('isMemAlert')
self.isPidAlert = cfg.getMonitor('isPidAlert')
self.errorTimesOfPid = cfg.getMonitor('errorTimesOfPid')
self.frequencyFGC = cfg.getMonitor('frequencyFGC')
self.isJvmAlert = cfg.getMonitor('isJvmAlert')
self.echo = cfg.getMonitor('echo')
self.isDiskAlert = cfg.getMonitor('isDiskAlert')
self.maxDiskUsage = cfg.getMonitor('maxDiskUsage') / 100
self.isTCP = cfg.getMonitor('isTCP')
self.timeSetting = cfg.getMonitor('timeSetting')
system_interval = cfg.getMonitor('system_interval')
port_interval = cfg.getMonitor('port_interval')
self.system_interval = max(
system_interval,
1) # If the set value is less than 1, the default is 1
self.port_interval = max(
port_interval,
1) # If the set value is less than 1, the default is 1
self.system_interval = self.system_interval - 1.1 # Program running time
self.system_interval = max(self.system_interval, 0)
self.port_interval = self.port_interval - 1.03 # Program running time
self.port_interval = max(self.port_interval, 0)
self.system_version = '' # system version
self.cpu_info = ''
self.cpu_usage = 0.0 # CPU usage
self.cpu_cores = 0 # number of CPU core
self.mem_usage = 0.0 # memory usage
self.total_mem = 0 # totel memory, unit: G
self.total_mem_100 = 0 # total memory, unit: 100*G
self.nic = '' # network card
self.all_disk = [] # disk number
self.total_disk = 1 # total disk size, unit: M
self.total_disk_h = 0 # total disk size, unit:T or G
self.network_speed = cfg.getServer('nicSpeed') # bandwidth
self.get_system_version()
self.get_cpu_cores()
self.get_total_mem()
self.get_system_nic()
self.get_disks()
self.get_system_net_speed()
self.get_total_disk_size()
self.monitor_task = queue.Queue() # FIFO queue
# thread pool, +2 is the need for monitoring system and registration service
self.executor = ThreadPoolExecutor(self.thread_pool + 2)
self.client = influxdb.InfluxDBClient(
cfg.getInflux('host'), cfg.getInflux('port'),
cfg.getInflux('username'), cfg.getInflux('password'),
cfg.getInflux('database')) # influxdb connection
self.FGC = {} # full gc times
self.FGC_time = {} # full gc time
self.last_cpu_io = [] # recently cpu usage
self.is_java = {} # whether is java, 0 or 1
self.monitor()
def register_agent(self, disk_flag=True):
"""
Timed task. One is register, the other one is clean up the ports that stopped monitoring.
disk_flag: Whether to send email when disk space usage is too high.
:param
:return:
"""
url = f'http://{cfg.getMaster("host")}:{cfg.getMaster("port")}/Register'
header = {
"Accept": "application/json, text/plain, */*",
"Accept-Encoding": "gzip, deflate",
"Content-Type": "application/json; charset=UTF-8"
}
post_data = {
'host': self.IP,
'port': cfg.getServer('port'),
'system': self.system_version,
'cpu': self.cpu_cores,
'cpu_usage': self.cpu_usage,
'nic': self.nic,
'network_speed': self.network_speed,
'mem': round(self.total_mem, 2),
'mem_usage': self.mem_usage,
'disk_size': self.total_disk_h,
'disk_usage': self.get_used_disk_rate(),
'disks': ','.join(self.all_disk)
}
start_time = time.time()
disk_start_time = time.time()
while True:
try:
if time.time() - start_time > 8: # register
post_data['cpu_usage'] = self.cpu_usage
post_data['mem_usage'] = self.mem_usage
res = requests.post(url=url,
json=post_data,
headers=header)
logger.info(
f"The result of registration is {res.content.decode('unicode_escape')}"
)
start_time = time.time()
if time.strftime('%H:%M') == self.timeSetting: # clean up
logger.debug(
'Cleaning up the ports that stopped monitoring.')
self.clear_port()
if time.time() - disk_start_time > 300:
disk_usage = self.get_used_disk_rate()
if disk_usage:
post_data[
'disk_usage'] = disk_usage # disk space usage, without %
disk_start_time = time.time()
if self.maxDiskUsage < disk_usage:
msg = f"The disk space usage is {disk_usage/100:.2f}%, it is too high. Server IP is {self.IP}"
logger.warning(msg)
if self.isDiskAlert and disk_flag:
disk_flag = False # Set to False to prevent cleaning up cache continuously
thread = threading.Thread(target=notification,
args=(msg, ))
thread.start()
else:
disk_flag = True
time.sleep(5)
except (Exception):
logger.error(traceback.format_exc())
time.sleep(1)
#!/usr/bin/env python
# -*- coding: utf-8 -*-
# @Author: leeyoshinari
import os
import time
import asyncio
import traceback
from aiohttp import web
from common import get_ip
from logger import logger, cfg
from performance_monitor import PerMon, port_to_pid
permon = PerMon()
HOST = cfg.getServer('host') if cfg.getServer('host') else get_ip()
async def index(request):
"""
Home, basic data can be displayed by visiting http://ip:port
:param request:
:return:
"""
return web.Response(
body=
f'The server system version is {permon.system_version}, {permon.cpu_info}, total memory is {permon.total_mem}G, '
f'the network card is {permon.nic}, bandwidth is {permon.network_speed}Mb/s, {len(permon.all_disk)} disks, '
f'total size of disks is {permon.total_disk_h}, disks number is {"、".join(permon.all_disk)}. '
f'If you need to stop the monitoring client, please visit http://{HOST}:{cfg.getServer("port")}/stop'
)
def write_system_cpu_mem_and_register_clear(self, is_system):
"""
监控系统CPU使用率、剩余内存和磁盘IO
定时任务,总共有两个,一个是向服务端注册本机,一个是清理已经停止监控的过期端口
:param is_system: 未使用
:return:
"""
cpu_flag = True # 控制CPU过高时是否邮件通知标志
mem_flag = True # 控制内存过低时是否邮件通知标志
echo = True # 控制是否清理缓存标志
disk_flag = True # 控制磁盘空间使用率过高时是否邮件通知标志
line = [{
'measurement': self.IP,
'tags': {
'type': 'system'
},
'fields': {
'cpu': 0.0,
'mem': 0.0,
'rec': 0.0,
'trans': 0.0,
'net': 0.0,
'tcp': 0,
'retrans': 0.0
}
}]
for disk in self.all_disk:
# 系统磁盘号目前发现2种格式,分别是'sda'和'sda-1',因为influxdb查询时,无法识别'-',故replace。其他格式的待验证
disk_n = disk.replace('-', '')
line[0]['fields'].update({disk_n: 0.0})
line[0]['fields'].update({disk_n + '_r': 0.0})
line[0]['fields'].update({disk_n + '_w': 0.0})
disk_usage = self.get_used_disk_rate()
# 注册本机参数
url = f'http://{cfg.getMaster("host")}:{cfg.getMaster("port")}/Register'
header = {
"Accept": "application/json, text/plain, */*",
"Accept-Encoding": "gzip, deflate",
"Content-Type": "application/json; charset=UTF-8"
}
post_data = {
'host': self.IP,
'port': cfg.getServer('port'),
'system': self.system_version,
'cpu': self.cpu_cores,
'cpu_usage': 0.0,
'nic': self.nic,
'network_speed': self.network_speed,
'mem': round(self.total_mem, 2),
'mem_usage': 0.0,
'disk_size': self.total_disk_h,
'disk_usage': disk_usage,
'disks': ','.join(self.all_disk)
}
start_time = time.time()
disk_start_time = time.time()
while True:
if time.time() - start_time > 5: # 每隔5秒注册本机
try:
res = requests.post(url=url,
json=post_data,
headers=header)
logger.info(
f"客户端注册结果:{res.content.decode('unicode_escape')}")
start_time = time.time()
if time.strftime(
'%H:%M') == self.timeSetting: # 每天定时清理一次过期的端口
logger.debug('正常清理停止监控的端口')
self.clear_port()
except:
logger.error(traceback.format_exc())
if time.time() - disk_start_time > 300: # 每隔5分钟获取一次磁盘使用情况
disk_usage = self.get_used_disk_rate()
if disk_usage:
post_data['disk_usage'] = disk_usage # 磁盘使用率,不带%号
disk_start_time = time.time()
if self.maxDiskUsage < disk_usage:
msg = f"{self.IP} 当前系统磁盘空间使用率为{disk_usage/100:.2f}%,请注意磁盘空间"
logger.warning(msg)
if self.isDiskAlert and disk_flag:
disk_flag = False # 标志符置为False,防止连续不断的发送邮件
thread = threading.Thread(
target=notification,
args=(msg, )) # 开启线程发送邮件通知
thread.start()
else:
disk_flag = True
if self.is_system: # 开始监控
try:
res = self.get_system_cpu_io_speed() # 获取系统CPU、内存和磁盘IO、带宽
if res['disk'] and res['cpu'] is not None and res[
'mem'] is not None:
for k, v in res['disk'].items():
line[0]['fields'][k] = min(v, 100.0) # 写磁盘IO数据到数据库
for k, v in res['disk_r'].items():
line[0]['fields'][k] = v
for k, v in res['disk_w'].items():
line[0]['fields'][k] = v
line[0]['fields']['cpu'] = res['cpu']
line[0]['fields']['mem'] = res['mem']
line[0]['fields']['rec'] = res['rece']
line[0]['fields']['trans'] = res['trans']
line[0]['fields']['net'] = res['network']
line[0]['fields']['tcp'] = res['tcp']
line[0]['fields']['retrans'] = res['retrans']
self.client.write_points(line) # 写cpu和内存到数据库
logger.info(
f"system: CpuAndMem,{res['cpu']},{res['mem']},{res['disk']},{res['disk_r']},{res['disk_w']},"
f"{res['rece']},{res['trans']},{res['network']}, {res['tcp']}, {res['retrans']}"
)
if len(self.last_cpu_io) > self.CPUDuration:
self.last_cpu_io.pop(0)
self.last_cpu_io.append(res['cpu'])
cpu_usage = sum(self.last_cpu_io) / len(
self.last_cpu_io)
post_data['cpu_usage'] = cpu_usage # CPU使用率,带%号
post_data['mem_usage'] = 1 - res[
'mem'] / self.total_mem # 内存使用率,不带%号
if cpu_usage > self.maxCPU:
msg = f'{self.IP} 当前CPU平均使用率为{cpu_usage}%,CPU使用率过高'
logger.warning(msg)
if self.isCPUAlert and cpu_flag:
cpu_flag = False # 标志符置为False,防止连续不断的发送邮件
thread = threading.Thread(
target=notification,
args=(msg, )) # 开启线程发送邮件通知
thread.start()
else:
cpu_flag = True # 如果CPU正常,标识符重置为True
if res['mem'] <= self.minMem:
msg = f"{self.IP} 当前系统剩余内存为{res['mem']}G,内存过低"
logger.warning(msg)
if self.isMemAlert and mem_flag:
mem_flag = False # 标志符置为False,防止连续不断的发送邮件
thread = threading.Thread(
target=notification,
args=(msg, )) # 开启线程发送邮件通知
thread.start()
if self.echo and echo:
echo = False # 标志符置为False,防止连续不断的清理缓存
thread = threading.Thread(
target=self.clear_cache,
args=()) # 开启线程清理缓存
thread.start()
else:
# 如果内存正常,标识符重置为True
mem_flag = True
echo = True
except:
logger.error(traceback.format_exc())
time.sleep(self.system_interval)
else:
time.sleep(3)
def __init__(self):
self.IP = get_ip()
self.thread_pool = cfg.getServer(
'threadPool') if cfg.getServer('threadPool') >= 0 else 0
self._msg = {
'port': [],
'pid': [],
'isRun': [],
'startTime': []
} # 端口号、进程号、监控状态、开始监控时间
self.is_system = cfg.getMonitor('isMonSystem') # 是否监控服务器的资源
self.error_duration = cfg.getMonitor('errorDuration') # 执行命令失败次数
self.sleepTime = cfg.getMonitor('sleepTime')
self.maxCPU = cfg.getMonitor('maxCPU')
self.CPUDuration = cfg.getMonitor('CPUDuration')
self.isCPUAlert = cfg.getMonitor('isCPUAlert')
self.minMem = cfg.getMonitor('minMem')
self.isMemAlert = cfg.getMonitor('isMemAlert')
self.frequencyFGC = cfg.getMonitor('frequencyFGC')
self.isJvmAlert = cfg.getMonitor('isJvmAlert')
self.echo = cfg.getMonitor('echo')
self.isDiskAlert = cfg.getMonitor('isDiskAlert')
self.maxDiskUsage = cfg.getMonitor('maxDiskUsage') / 100
self.isTCP = cfg.getMonitor('isTCP')
self.timeSetting = cfg.getMonitor('timeSetting')
system_interval = cfg.getMonitor('system_interval') # 每次执行监控命令的时间间隔
port_interval = cfg.getMonitor('port_interval') # 每次执行监控命令的时间间隔
self.system_interval = max(system_interval, 1) # 设置的值如果小于1,则默认为1
self.port_interval = max(port_interval, 1)
self.system_interval = self.system_interval - 1.1 # 程序运行、写库时间
self.system_interval = max(self.system_interval, 0)
self.port_interval = self.port_interval - 0.02 # 0.02为程序运行、写库时间
self.system_version = '' # 系统版本
self.cpu_info = ''
self.cpu_cores = 0 # CPU核数
self.total_mem = 0 # 总内存,单位G
self.total_mem_100 = 0 # 总内存,单位100*G,主要用于求内存占比,减少运算量
self.nic = '' # 系统正在使用的网卡
self.all_disk = [] # 磁盘号
self.total_disk = 1 # 磁盘总大小,单位M
self.total_disk_h = 0 # 磁盘总大小,以人可读的方式展示,单位T或G
self.network_speed = 1 # 服务器网卡带宽
self.get_system_version()
self.get_cpu_cores()
self.get_total_mem()
self.get_system_nic()
self.get_disks()
self.get_system_net_speed()
self.get_total_disk_size()
self.monitor_task = queue.Queue() # 创建一个FIFO队列
self.executor = ThreadPoolExecutor(self.thread_pool +
1) # 创建线程池, +1是需要监控系统
self.client = influxdb.InfluxDBClient(
cfg.getInflux('host'), cfg.getInflux('port'),
cfg.getInflux('username'), cfg.getInflux('password'),
cfg.getInflux('database')) # 创建数据库连接
self.FGC = {} # 每个端口的full gc次数
self.FGC_time = {} # 每个端口每次full gc的时间
self.last_cpu_io = [] # 最近一段时间的cpu的值,约100s
self.is_java = {} # 监控的端口是否是java服务,0 or 1
self.monitor()