def cpu_stats(self):
ret = {}
ret['cpu_ctx_switches'] = psutil.cpu_stats().ctx_switches
ret['cpu_interrupts'] = psutil.cpu_stats().interrupts
ret['cpu_soft_interrupts'] = psutil.cpu_stats().soft_interrupts
ret['cpu_syscalls'] = psutil.cpu_stats().syscalls
return ret
def get_stats(name, nic):
global prev_recv
global prev_sent
global prev_read
global prev_write
with open('/proc/uptime', 'r') as f:
uptime_seconds = float(f.readline().split()[0])
stats = {'date': datetime.datetime.now().isoformat(), 'name': name,
'cpu': psutil.cpu_percent(interval=None, percpu=True), 'cpu_count': psutil.cpu_count(),
'cpu_ctx_switches': psutil.cpu_stats().ctx_switches, 'cpu_interrupts': psutil.cpu_stats().interrupts,
'ram': psutil.virtual_memory().percent,
'ram-available': psutil.virtual_memory().available, 'ram-used': psutil.virtual_memory().used,
'swap': psutil.swap_memory().percent, 'swap-total': psutil.swap_memory().total,
'swap-used': psutil.swap_memory().used, 'disk_io_read': psutil.disk_io_counters().read_bytes,
'disk_io_write': psutil.disk_io_counters().write_bytes, 'disk_total': psutil.disk_usage('/').total,
'disk_used': psutil.disk_usage('/').used,
'uptime': uptime_seconds}
nic_list = psutil.net_io_counters(pernic=True)
nic = nic_list[nic]
stats['packets_sent'] = [nic.packets_sent, nic.errout]
stats['packets_recv'] = [nic.packets_recv, nic.errin]
stats['bytes_recv'] = nic.bytes_recv
stats['bytes_sent'] = nic.bytes_sent
if prev_recv != -1:
stats['dl_rate'] = stats['bytes_recv'] - prev_recv
else:
stats['dl_rate'] = 0
prev_recv = stats['bytes_recv']
if prev_sent != -1:
stats['ul_rate'] = stats['bytes_sent'] - prev_sent
else:
stats['ul_rate'] = 0
prev_sent = stats['bytes_sent']
if prev_read != -1:
stats['disk_read_rate'] = stats['disk_io_read'] - prev_read
else:
stats['disk_read_rate'] = 0
prev_read = stats['disk_io_read']
if prev_read != -1:
stats['disk_write_rate'] = stats['disk_io_write'] - prev_write
else:
stats['disk_write_rate'] = 0
prev_write = stats['disk_io_write']
return stats
def test_cpu_stats(self):
out = sh('/usr/bin/mpstat -a')
re_pattern = "ALL\s*"
for field in ("min maj mpcs mpcr dev soft dec ph cs ics bound rq "
"push S3pull S3grd S0rd S1rd S2rd S3rd S4rd S5rd "
"sysc").split():
re_pattern += "(?P<%s>\S+)\s+" % (field,)
matchobj = re.search(re_pattern, out)
self.assertIsNotNone(
matchobj, "mpstat command returned unexpected output")
# numbers are usually in the millions so 1000 is ok for tolerance
CPU_STATS_TOLERANCE = 1000
psutil_result = psutil.cpu_stats()
self.assertAlmostEqual(
psutil_result.ctx_switches,
int(matchobj.group("cs")),
delta=CPU_STATS_TOLERANCE)
self.assertAlmostEqual(
psutil_result.syscalls,
int(matchobj.group("sysc")),
delta=CPU_STATS_TOLERANCE)
self.assertAlmostEqual(
psutil_result.interrupts,
int(matchobj.group("dev")),
delta=CPU_STATS_TOLERANCE)
self.assertAlmostEqual(
psutil_result.soft_interrupts,
int(matchobj.group("soft")),
delta=CPU_STATS_TOLERANCE)
def update(self):
"""Update CPU stats using the input method."""
# Reset stats
self.reset()
# Grab stats into self.stats
"""Update CPU stats using PSUtil."""
# Grab CPU stats using psutil's cpu_percent and cpu_times_percent
# Get all possible values for CPU stats: user, system, idle,
# nice (UNIX), iowait (Linux), irq (Linux, FreeBSD), steal (Linux 2.6.11+)
# The following stats are returned by the API but not displayed in the UI:
# softirq (Linux), guest (Linux 2.6.24+), guest_nice (Linux 3.2.0+)
self.stats['total'], _ = cpumeter.get()
cpu_times_percent = psutil.cpu_times_percent(interval=0.0)
for stat in [
'user', 'system', 'idle', 'nice', 'iowait', 'irq', 'softirq',
'steal', 'guest', 'guest_nice'
]:
if hasattr(cpu_times_percent, stat):
self.stats[stat] = getattr(cpu_times_percent, stat)
# Additionnal CPU stats (number of events / not as a %)
# ctx_switches: number of context switches (voluntary + involuntary) per second
# interrupts: number of interrupts per second
# soft_interrupts: number of software interrupts per second. Always set to 0 on Windows and SunOS.
# syscalls: number of system calls since boot. Always set to 0 on Linux.
try:
cpu_stats = psutil.cpu_stats()
except AttributeError:
logger.error('cpu_stats only available with PSUtil 4.1and above')
else:
# By storing time data we enable Rx/s and Tx/s calculations in the
# XML/RPC API, which would otherwise be overly difficult work
# for users of the API
time_since_update = getTimeSinceLastUpdate('cpu')
# Previous CPU stats are stored in the cpu_stats_old variable
if not hasattr(self, 'cpu_stats_old'):
# First call, we init the cpu_stats_old var
self.cpu_stats_old = cpu_stats
else:
for stat in cpu_stats._fields:
if getattr(cpu_stats, stat) is not None:
self.stats[stat] = getattr(cpu_stats, stat) - getattr(
self.cpu_stats_old, stat)
self.stats['time_since_update'] = time_since_update
# Core number is needed to compute the CTX switch limit
self.stats['cpucore'] = self.nb_log_core
# Save stats to compute next step
self.cpu_stats_old = cpu_stats
# Append to average FILO
self.cpu_average.append(self.stats)
return self.stats
def _collect_system_info(self):
'collect cpuinfo, meminfo, mounts'
log("Collecting system info")
system = {}
system['cpu'] = {}
system['os'] = {}
system['memory'] = {}
system['disk'] = {}
system['process'] = {}
system['compiler'] = {}
system['compiler']['make'] = run_cmd(['make', '--version'], env=self._env)
system['compiler']['gcc'] = run_cmd(['gcc', '--version'], env=self._env)
system['cpu']['information'] = get_cpu_info()
system['cpu']['number'] = psutil.cpu_count()
system['cpu']['times'] = psutil.cpu_times(percpu=False)
system['cpu']['percent'] = psutil.cpu_times_percent(percpu=False)
system['cpu']['stats'] = psutil.cpu_stats()
system['cpu']['load_avg'] = psutil.getloadavg()
system['os']['architecture'] = platform.architecture()
system['os']['processor'] = platform.processor()
system['os']['release'] = platform.release()
system['os']['version'] = platform.version()
system['os']['libc'] = platform.libc_ver()
system['memory']['virtual'] = psutil.virtual_memory()
system['memory']['swap'] = psutil.swap_memory()
system['memory']['mounts'] = psutil.disk_partitions()
system['disk']['usage'] = psutil.disk_usage('/')
system['disk']['io'] = psutil.disk_io_counters(perdisk=False, nowrap=True)
process = psutil.Process()
system['process']['io'] = process.io_counters()
system['process']['context_switches'] = process.num_ctx_switches()
system['process']['cpu_times'] = process.cpu_times()
system['process']['threads'] = process.num_threads()
system['process']['cpu_percent'] = process.cpu_percent()
system['process']['memory'] = process.memory_info()
system['process']['memory_percent'] = process.memory_percent()
# files to be uploaded and saved somewhere
'''
with open('/proc/cpuinfo', 'r') as f:
system['cpuinfo'] = f.read()
with open('/proc/meminfo', 'r') as f:
system['meminfo'] = f.read()
with open('/proc/mounts', 'r') as f:
system['mounts'] = f.read()
'''
return system
def test_cpu_stats(self):
# Tested more extensively in per-platform test modules.
infos = psutil.cpu_stats()
for name in infos._fields:
value = getattr(infos, name)
self.assertGreaterEqual(value, 0)
if name in ('ctx_switches', 'interrupts'):
self.assertGreater(value, 0)
def get_info():
time = datetime.datetime.fromtimestamp(
psutil.boot_time()).strftime("%Y-%m-%d %H:%M:%S")
mem = psutil.virtual_memory()
per = psutil.cpu_percent(interval=1)
count = psutil.cpu_count()
freq = psutil.cpu_freq()
stats = psutil.cpu_stats()
def fetchCpu():
"""
fetch CPU info
:return: type json
"""
return {
'cpu_times_user': psutil.cpu_times().user,
'cpu_times_system': psutil.cpu_times().system,
'cpu_times_idle': psutil.cpu_times().idle,
'cpu_percent': psutil.cpu_percent(),
'cpu_times_percent': psutil.cpu_times_percent(),
'cpu_stats_ctx_switches': psutil.cpu_stats().ctx_switches,
'cpu_stats_interrupts': psutil.cpu_stats().interrupts,
'cpu_stats_soft_interrupts': psutil.cpu_stats().soft_interrupts,
'cpu_stats_syscalls': psutil.cpu_stats().syscalls,
'getloadavg': psutil.getloadavg()
}
def test_cpu_stats(self):
# Tested more extensively in per-platform test modules.
infos = psutil.cpu_stats()
for name in infos._fields:
value = getattr(infos, name)
self.assertGreaterEqual(value, 0)
if name in ('ctx_switches', 'interrupts'):
self.assertGreater(value, 0)
def __set_data(self):
# Cpu stats
self.__infos.cpu_stat_ctx_switches = cpu_stats().ctx_switches
self.__infos.cpu_stat_interrupts = cpu_stats().interrupts
self.__infos.cpu_stat_soft_interrupts = cpu_stats().soft_interrupts
self.__infos.cpu_stat_syscalls = cpu_stats().syscalls
# Cpu times
self.__infos.cpu_times_user = cpu_times().user
self.__infos.cpu_times_system = cpu_times().system
self.__infos.cpu_times_nice = cpu_times().nice
self.__infos.cpu_times_softirq = cpu_times().softirq
self.__infos.cpu_times_irq = cpu_times().irq
self.__infos.cpu_times_iowait = cpu_times().iowait
self.__infos.cpu_times_guest = cpu_times().guest
self.__infos.cpu_times_guest_nice = cpu_times().guest_nice
self.__infos.cpu_times_idle = cpu_times().idle
def render(draw, width, height):
stats = psutil.cpu_stats()
draw.text((10, 0), 'Ctx switch', fill='white', font=default)
right_text(draw, width, 0, text=str(stats.ctx_switches), font=default)
draw.text((10, 10), 'Interrupts', fill='white', font=default)
right_text(draw, width, 10, text=str(stats.interrupts), font=default)
draw.text((10, 20), 'Soft intr', fill='white', font=default)
right_text(draw, width, 20, text=str(stats.soft_interrupts), font=default)
def get_cpu_stat():
cpu_stats = psutil.cpu_stats()
return {
'ctx_switches': cpu_stats.ctx_switches,
'interrupts': cpu_stats.interrupts,
'soft_interrupts': cpu_stats.soft_interrupts,
'syscalls': cpu_stats.syscalls
}
def get_stats(task):
click.echo('getting stats %s' % task)
if (task == 'cpu' or task == 'all'):
cpu_stats = psutil.cpu_stats()
click.echo(cpu_stats)
if (task == 'disk' or task == 'all'):
disk_usage = psutil.disk_usage('C:/')
click.echo(disk_usage)
def cpu_stats():
stats = psutil.cpu_stats()
return {
'ctx_switches': stats.ctx_switches,
'interrupts': stats.interrupts,
'soft_interrupts': stats.soft_interrupts, # always 0 on windows
'syscalls': stats.syscalls # always 0 on linux
}
def test():
print('CPU逻辑数量: ', psutil.cpu_count())
print('getloadavg : ', psutil.getloadavg())
print('cpu 空闲率 : ', psutil.cpu_percent())
print('cpu 频率 : ', psutil.cpu_freq())
print('cpu 统计 : ', psutil.cpu_stats())
print('cpu times : ', psutil.cpu_times())
print('cpu times% : ', psutil.cpu_times_percent())
def get_cpu_stat_test():
print(psutil.cpu_freq())
print('\n')
print(psutil.cpu_stats())
print('\n')
print(psutil.cpu_times_percent(interval=1))
CPUList = psutil.cpu_times_percent(interval=1, percpu=True)
for member in CPUList:
print(member)
def cpu_stats():
"""Get CPU stats."""
data = {}
stats = psutil.cpu_stats()
data["ctx_switches"] = stats.ctx_switches
data["interrupts"] = stats.interrupts
data["soft_interrupts"] = stats.soft_interrupts
data["syscalls"] = stats.syscalls
return data
def get_cpu_stat(): cpu_stats = psutil.cpu_stats() s = "---------- CPU status ----------\n" s += "* コンテキストスイッチ回数 \t" + str(cpu_stats.ctx_switches) + "\n" s += "* 割り込み回数 \t" + str(cpu_stats.interrupts) + "\n" s += "* ソフトによる割り込み回数\t" + str(cpu_stats.soft_interrupts) + "\n" s += "* システムコール回数 \t" + str(cpu_stats.syscalls) + "\n" return s
def get_cpu_stat():
cpu_stats = psutil.cpu_stats()
s = "---------- CPU status ----------\n"
s += "* コンテキストスイッチ回数 \t" + str(cpu_stats.ctx_switches) + "\n"
s += "* 割り込み回数 \t" + str(cpu_stats.interrupts) + "\n"
s += "* ソフトによる割り込み回数\t" + str(cpu_stats.soft_interrupts) + "\n"
s += "* システムコール回数 \t" + str(cpu_stats.syscalls) + "\n"
return s
def run(self):
while True:
if self.enableAdaptor:
print('\n---------------')
print('New system performance reading:')
print(' ' + str(psutil.cpu_stats()))
print(' ' + str(psutil.virtual_memory()))
# print(' ' + str(psutil.sensors_temperatures(False)))
sleep(self.rateInSec)
def run(self):
while (True):
if self.enableAdaptor:
print("\n---------------")
print('New system performance readings:')
print(' ' + str(psutil.cpu_stats()))
print(' ' + str(psutil.virtual_memory()))
sleep(self.rateInSec)
def cpuInfo(self):
"""
get CPU info
:return: CPU info
"""
return {
'cpu_times_user': psutil.cpu_times().user,
'cpu_times_system': psutil.cpu_times().system,
'cpu_times_idle': psutil.cpu_times().idle,
'cpu_percent': psutil.cpu_percent(),
'cpu_times_percent_user': psutil.cpu_times_percent().user,
'cpu_times_percent_system': psutil.cpu_times_percent().system,
'cpu_times_percent_idle': psutil.cpu_times_percent().idle,
'cpu_stats_ctx_switches': psutil.cpu_stats().ctx_switches,
'cpu_stats_interrupts': psutil.cpu_stats().interrupts,
'cpu_stats_soft_interrupts': psutil.cpu_stats().soft_interrupts,
'cpu_stats_syscalls': psutil.cpu_stats().syscalls,
}
def GetCPUStatistics():
cpustats = psutil.cpu_stats()
retndata = {
"ctxs": cpustats.ctx_switches,
"intr": cpustats.interrupts,
"soft": cpustats.soft_interrupts,
"sysc": cpustats.syscalls,
}
return retndata
def cpu_info():
# cpu_frep = psutil.cpu_freq()
cpu_per = psutil.cpu_percent() # cpu使用量
cpu_status = psutil.cpu_stats()
cpu_times = psutil.cpu_times()
# print('cpu_frep:', cpu_frep)
print('cpu_per:', cpu_per)
print('cpu_status:', cpu_status)
print('cpu_times:', cpu_times)
def run(self):
while True:
if 1:
print('\n--------------------')
print('New system performance readings:')
print(' ' + str(psutil.cpu_stats()))
print(' ' + str(psutil.virtual_memory()))
# print(' ' + str(psutil.sensors_temperatures(False)))
time.sleep(5)
def get_cpu(self):
cpu_dic = dict()
cpu_dic['cpu_count'] = psutil.cpu_count()
cpu_dic['cpu_percent'] = psutil.cpu_percent()
cpu_dic['cpu_times'] = psutil.cpu_times()
cpu_dic['cpu_times_percent'] = psutil.cpu_times_percent()
cpu_dic['cpu_stats'] = psutil.cpu_stats()
cpu_dic['cpu_freq'] = psutil.cpu_freq()
return cpu_dic
def test_cpu_stats_ctx_switches(self):
with open('/proc/stat', 'rb') as f:
for line in f:
if line.startswith(b'ctxt'):
ctx_switches = int(line.split()[1])
break
else:
raise ValueError("couldn't find line")
self.assertAlmostEqual(
psutil.cpu_stats().ctx_switches, ctx_switches, delta=1000)
def health():
data = {
socket.gethostname(): [{
'RAM': psutil.virtual_memory()._asdict()
}, {
'CPU': psutil.cpu_stats()._asdict()
}]
}
response.content_type = 'application/json'
return json.dumps(data, indent=4)
def test_cpu_stats_interrupts(self):
with open('/proc/stat', 'rb') as f:
for line in f:
if line.startswith(b'intr'):
interrupts = int(line.split()[1])
break
else:
raise ValueError("couldn't find line")
self.assertAlmostEqual(
psutil.cpu_stats().interrupts, interrupts, delta=1000)
def get_cpu_metrics():
"""
Collects CPU metrics and returns a list of objects.
"""
cpu_metrics = {}
cpu_metrics.update(namedtuple_to_dict(psutil.cpu_stats()))
cpu_metrics.update(namedtuple_to_dict(psutil.cpu_freq()))
cpu_metrics.update(namedtuple_to_dict(psutil.cpu_times()))
return {'cpu': cpu_metrics}
def cpuTimes():
# CPU 的暂时用不到, 等到需要的时候再来整理
print psutil.cpu_times(percpu=False)
#
print psutil.cpu_percent(interval=None, percpu=False)
time.sleep(0.2)
print psutil.cpu_percent(interval=0.2, percpu=True)
# 统计 cpu 的数量
print psutil.cpu_count()
# 统计 CPU 的状态信息
print psutil.cpu_stats()
# 输出 CPU的频率
print psutil.cpu_freq(percpu=False)
# 输出系统的平均负载: 1 分钟, 5 分钟, 15 分钟
print psutil.getloadavg()
print [x / psutil.cpu_count() * 100 for x in psutil.getloadavg()]
def check_computer_info():
print("check cpu_times")
print(psutil.cpu_times())
print(psutil.cpu_percent())
print(psutil.cpu_times_percent(interval=None, percpu=False))
print(psutil.cpu_count(logical=True))
print(psutil.cpu_stats())
print(psutil.cpu_freq(percpu=False))
print(psutil.getloadavg())
print()
print()
def cpu_stats(measurement):
stats = psutil.cpu_stats()
return [
CPUStats(
measurement=measurement,
ctx_switches=stats.ctx_switches,
interrupts=stats.interrupts,
soft_interrupts=stats.soft_interrupts,
syscalls=stats.syscalls,
)
]
def processador():
inicio = time.time()
lista = []
lista_med = []
info = cpuinfo.get_cpu_info()
dic_cpu = []
dic_cpu = psutil.cpu_stats()
dic_cpu_nucleo = []
dic_cpu_nucleo = psutil.cpu_percent(interval=1, percpu=True)
lista_nucleo = []
nome_cpu = info['brand']
arq_cpu = info['arch']
palavra_cpu = str(info['bits'])
freq_base = info['hz_advertised']
for i in range(10):
freq_cpu = psutil.cpu_freq().current / 1000
time.sleep(1)
lista_med.append(freq_cpu)
freq_cpu = str(int(sum(lista_med)) / int(len(lista_med)))
lista_med_uso = []
for i in range(10):
uso_cpu = psutil.cpu_percent()
time.sleep(1)
lista_med_uso.append(uso_cpu)
uso_cpu = str(int(sum(lista_med_uso)) / int(len(lista_med_uso)))
lista_nucleo = psutil.cpu_percent(interval=1, percpu=True)
nucleos_cpu_logicos = str(psutil.cpu_count(logical=True))
nucleos_cpu_fisicos = str(psutil.cpu_count(logical=False))
lista.append(nome_cpu)
lista.append(arq_cpu)
lista.append(palavra_cpu)
lista.append(freq_base)
lista.append(freq_cpu)
lista.append(uso_cpu)
lista.append(lista_nucleo)
lista.append(nucleos_cpu_logicos)
lista.append(nucleos_cpu_fisicos)
fim = time.time()
print("Tempo da chamada:", round((fim - inicio), 2), "segundo(s).")
return lista
def __init__(self):
self.hostname = socket.gethostname()
self.iface = ni.interfaces()[1]
self.ipaddr = ni.ifaddresses(self.iface)[2][0]['addr']
self.mem = psutil.virtual_memory()
self.cpu_logical = psutil.cpu_count()
self.cpu = psutil.cpu_count(logical=True)
self.cpu_time = psutil.cpu_times()
self.cpu_stats = psutil.cpu_stats()
self.disk = psutil.disk_usage('/')
self.users = psutil.users()
def test_cpu_stats(self):
# Tested more extensively in per-platform test modules.
infos = psutil.cpu_stats()
self.assertEqual(
infos._fields,
('ctx_switches', 'interrupts', 'soft_interrupts', 'syscalls'))
for name in infos._fields:
value = getattr(infos, name)
self.assertGreaterEqual(value, 0)
# on AIX, ctx_switches is always 0
if not AIX and name in ('ctx_switches', 'interrupts'):
self.assertGreater(value, 0)
def _update_agent_system(agent):
"""Update agent with system data.
Args:
agent: Agent object
uid: Unique ID for Agent
config: Configuration object
Returns:
None
"""
#########################################################################
# Set non chartable values
#########################################################################
agent.populate_single('release', platform.release(), base_type=None)
agent.populate_single('system', platform.system(), base_type=None)
agent.populate_single('version', platform.version(), base_type=None)
dist = platform.linux_distribution()
agent.populate_single('distribution', ' '.join(dist), base_type=None)
agent.populate_single('cpu_count', psutil.cpu_count(), base_type=1)
#########################################################################
# Set chartable values
#########################################################################
agent.populate_single(
'process_count', len(psutil.pids()), base_type=1)
agent.populate_named_tuple(
psutil.cpu_times_percent(), prefix='cpu_times_percent', base_type=1)
# Load averages
(la_01, la_05, la_15) = os.getloadavg()
agent.populate_single(
'load_average_01min', la_01, base_type=1)
agent.populate_single(
'load_average_05min', la_05, base_type=1)
agent.populate_single(
'load_average_15min', la_15, base_type=1)
# Get CPU times
agent.populate_named_tuple(
psutil.cpu_times(), prefix='cpu_times', base_type=64)
# Get CPU stats
agent.populate_named_tuple(
psutil.cpu_stats(), prefix='cpu_stats', base_type=64)
# Get memory utilization
agent.populate_named_tuple(psutil.virtual_memory(), prefix='memory')
def cpu_info(request):
if request.method == 'GET':
cpu_percent = str(psutil.cpu_percent())
cpu_stats= str(psutil.cpu_stats())
cpu_count= str(psutil.cpu_count())
cpu_info = {}
cpu_info['cpu_rate']= cpu_percent
cpu_info['cpu_stats']= cpu_stats
cpu_info['cpu_count']= cpu_count
return HttpResponse(json.dumps(cpu_info))
else:
cpu_info = {}
cpu_info['error']= "error"
return HttpResponse(json.dumps(cpu_info))
def get_cpu_details(self):
cpu_details ={
'cpu_info':{
}
}
### CPU details ###
cpustat = psutil.cpu_stats()
cpu_details['cpu_info']['ctx_switches'] = cpustat.ctx_switches
cpu_details['cpu_info']['interrupts'] = cpustat.interrupts
cpu_details['cpu_info']['soft_interrupts'] = cpustat.soft_interrupts
cpu_details['cpu_info']['syscalls'] = cpustat.syscalls
return cpu_details
def trun(self):
global interval
global snap_stap
print("Writing info in txt file(SNAPSHOT #{})".format(snap_stap))
with open("monitorapp.txt", "a+") as txtfile:
txtfile.write( "\nSNAPSHOT " + "%s" % snap_stap + ":" + " [%s]" % datetime.datetime.now())
txtfile.write( "\nNumber of CPUs: " +str(psutil.cpu_count()))
txtfile.write( "\nNumber of Physical CPUs: " +str(psutil.cpu_count(logical=False)))
txtfile.write( "\nOverall CPU load: " +str(psutil.cpu_stats()))
txtfile.write( "\nOverall virtual memory usage: " +str(psutil.virtual_memory()))
txtfile.write( "\nOverall swap memory usage: " +str(psutil.swap_memory()))
txtfile.write( "\nIO information: " +str(psutil.disk_io_counters(perdisk=True)))
txtfile.write( "\nNetwork information: " +str(psutil.net_io_counters()))
txtfile.close()
snap_stap += 1
def update_local(self):
"""Update CPU stats using psutil."""
# Grab CPU stats using psutil's cpu_percent and cpu_times_percent
# Get all possible values for CPU stats: user, system, idle,
# nice (UNIX), iowait (Linux), irq (Linux, FreeBSD), steal (Linux 2.6.11+)
# The following stats are returned by the API but not displayed in the UI:
# softirq (Linux), guest (Linux 2.6.24+), guest_nice (Linux 3.2.0+)
# Init new stats
stats = self.get_init_value()
stats['total'] = cpu_percent.get()
cpu_times_percent = psutil.cpu_times_percent(interval=0.0)
for stat in ['user', 'system', 'idle', 'nice', 'iowait',
'irq', 'softirq', 'steal', 'guest', 'guest_nice']:
if hasattr(cpu_times_percent, stat):
stats[stat] = getattr(cpu_times_percent, stat)
# Additional CPU stats (number of events not as a %; psutil>=4.1.0)
# ctx_switches: number of context switches (voluntary + involuntary) per second
# interrupts: number of interrupts per second
# soft_interrupts: number of software interrupts per second. Always set to 0 on Windows and SunOS.
# syscalls: number of system calls since boot. Always set to 0 on Linux.
cpu_stats = psutil.cpu_stats()
# By storing time data we enable Rx/s and Tx/s calculations in the
# XML/RPC API, which would otherwise be overly difficult work
# for users of the API
time_since_update = getTimeSinceLastUpdate('cpu')
# Previous CPU stats are stored in the cpu_stats_old variable
if not hasattr(self, 'cpu_stats_old'):
# First call, we init the cpu_stats_old var
self.cpu_stats_old = cpu_stats
else:
for stat in cpu_stats._fields:
if getattr(cpu_stats, stat) is not None:
stats[stat] = getattr(cpu_stats, stat) - getattr(self.cpu_stats_old, stat)
stats['time_since_update'] = time_since_update
# Core number is needed to compute the CTX switch limit
stats['cpucore'] = self.nb_log_core
# Save stats to compute next step
self.cpu_stats_old = cpu_stats
return stats
def _poll(current, last_value):
# normalize with effective period
diff = 1.
if self._last_period:
diff = self._last_period / 10**9
# int values: bytes_sent, bytes_recv, packets_sent, packets_recv, errin, errout, dropin, dropout
current['network'] = dict(psutil.net_io_counters()._asdict())
# int values: read_count, write_count, read_bytes, write_bytes, read_time, write_time, read_merged_count, write_merged_count, busy_time
current['disk'] = dict(psutil.disk_io_counters()._asdict())
if last_value:
for k in ['network', 'disk']:
d = current[k]
for k2 in list(d.keys()):
value = float(d[k2] - last_value[k][k2]) / diff
d['{}_per_sec'.format(k2)] = int(value)
# float values: user, nice, system, idle, iowait, irq, softirq, streal, guest, guest_nice
current['cp'] = dict(psutil.cpu_times_percent(interval=None)._asdict())
cpu_freq = psutil.cpu_freq()
current['cp']['freq'] = round(cpu_freq.current) if cpu_freq else None
s = psutil.cpu_stats()
current['cp']['ctx_switches'] = s.ctx_switches
current['cp']['interrupts'] = s.interrupts
current['cp']['soft_interrupts'] = s.soft_interrupts
# int values: total, available, used, free, active, inactive, buffers, cached, shared, slab
# float values: percent
current['memory'] = dict(psutil.virtual_memory()._asdict())
# Network connections
res = {}
conns = psutil.net_connections(kind='all')
for c in conns:
if c.family not in res:
res[c.family] = 0
res[c.family] += 1
res2 = {}
for f, cnt in res.items():
res2[f.name] = cnt
current['network']['connection'] = res2
return current
def cpu_stats_info(self):
'''
Note: Get stats of CPU
cpu_stats_dict:
:return: dict type
{
'ctx_switches': value,
'interrupts': value,
'soft_interrupts': value,
'syscalls':value
}
'''
cpu_stats_dict = dict()
cpu_stats = psutil.cpu_stats()
cpu_stats_dict['ctx_switches'] = cpu_stats.ctx_switches
cpu_stats_dict['interrupts'] = cpu_stats.interrupts
cpu_stats_dict['soft_interrupts'] = cpu_stats.soft_interrupts
cpu_stats_dict['syscalls'] = cpu_stats.syscalls
return cpu_stats_dict
def get_status():
t0 = time.time()
ret = dict()
def percent(ret):
ret["cpupercent"] = psutil.cpu_percent(interval=0.49, percpu=True)
def times(ret):
cputimes = psutil.cpu_times_percent(interval=0.49, percpu=True)
ret["cputimes"] = []
for i in cputimes:
ret["cputimes"].append(obj2dict(i))
threads = []
threads.append(threading.Thread(target=percent, daemon=True, args=(ret,)))
threads.append(threading.Thread(target=times, daemon=True, args=(ret,)))
for i in threads:
i.start()
i.join()
ret["status"] = obj2dict(psutil.cpu_stats())
return ret
def jrun(self):
global interval
global snap_stap
print "Writing info in json file(SNAPSHOT #{})".format(snap_stap)
with open("monitorapp.json", "a+") as jsonfile:
jsonfile.write("\nSNAPSHOT " + "%s" % snap_stap + ":" + " [%s]" % datetime.datetime.now())
jsonfile.write("\nNumber of CPUs\n")
json.dump((psutil.cpu_count()), jsonfile, indent=4)
jsonfile.write("\nNumber of Physical CPUs\n")
json.dump((psutil.cpu_count(logical=False)), jsonfile, indent=4)
jsonfile.write("\nOverall CPU load\n")
json.dump(super(jcreate, self).creates_dict(psutil.cpu_stats()), jsonfile, indent=4)
jsonfile.write("\nOverall virtual memory usage\n")
json.dump(super(jcreate, self).creates_dict(psutil.virtual_memory()), jsonfile, indent=4)
jsonfile.write("\nOverall swap memory usage\n")
json.dump(super(jcreate, self).creates_dict(psutil.swap_memory()), jsonfile, indent=4)
jsonfile.write("\nIO information\n")
json.dump((psutil.disk_io_counters(perdisk=True)), jsonfile, indent=4)
jsonfile.write("\nNetwork information\n")
json.dump(super(jcreate, self).creates_dict(psutil.net_io_counters()), jsonfile, indent=4)
jsonfile.write("\n\n")
jsonfile.close()
snap_stap += 1
def getSystemInfo(cls):
system = {
'boot_time': psutil.boot_time(),
'cpu_count': psutil.cpu_count(),
'cpu_stats': psutil.cpu_stats().__dict__,
'cpu_times': [k.__dict__ for k in psutil.cpu_times(percpu=True)],
'disk_io_counters': psutil.disk_io_counters().__dict__,
'disk_usage': [],
'net_io_counters': psutil.net_io_counters().__dict__,
'swap_memory': psutil.swap_memory().__dict__,
'virtual_memory': psutil.virtual_memory().__dict__
}
partitions = psutil.disk_partitions()
for p in partitions:
if p.mountpoint in cls.INCLUDED_PARTITIONS:
usage = psutil.disk_usage(p.mountpoint)
system['disk_usage'].append({
'mountpoint': p.mountpoint,
'total': usage.total,
'used': usage.used
})
return system
def interrupts_count():
count = psutil.cpu_stats().interrupts
return count
import mysql.connector
import datetime
## set globals
computerName = 'Williams-Lab'
cnx = mysql.connector.connect(host="104.154.235.236", user="******",
password='******', dbname="timeSDM")
cursor = cnx.cursor(buffered=True)
print "Time\tAverageCPU\tUsed Memory\tAvailable Memory\tNum Procs\tSeconds Since Boot\t\n"
while True:
cpuCount = psutil.cpu_count()
cpuUsage = psutil.cpu_percent(percpu=True)
cpuAvg = psutil.cpu_percent()
cpuStats = psutil.cpu_stats()
try:
cpu1 = cpuUsage[0]
except:
cpu1 = None
try:
cpu2 = cpuUsage[1]
except:
cpu2 = None
try:
cpu3 = cpuUsage[2]
except:
cpu3 = None
try:
cpu4 = cpuUsage[3]
except:
def ctx_switches():
count = psutil.cpu_stats().ctx_switches
return count
def stats():
return psutil.cpu_stats()
def test_cpu_stats_syscalls(self):
self.assertAlmostEqual(psutil.cpu_stats().syscalls,
sysctl('vm.stats.sys.v_syscall'), delta=1000)
def test_cpu_stats_soft_interrupts(self):
self.assertAlmostEqual(psutil.cpu_stats().soft_interrupts,
sysctl('vm.stats.sys.v_soft'), delta=1000)
def test_cpu_stats_ctx_switches(self):
self.assertAlmostEqual(psutil.cpu_stats().ctx_switches,
sysctl('vm.stats.sys.v_swtch'), delta=1000)
def test_cpu_stats_traps(self):
self.assertAlmostEqual(psutil.cpu_stats().traps,
sysctl('vm.stats.sys.v_trap'), delta=1000)
def CPU_Stats():
try:
print(psutil.cpu_stats())
except Exception():
print(Exception)
def cpu_stats():
return {'cpu_stats': psutil.cpu_stats()}
from psutil import cpu_times, cpu_stats, virtual_memory
x = cpu_times()
print 'cpu_times()'
print x
print ' '
#access of namedtuple attibutes
print 'user: {0}'.format(x.user)
print 'system: {0}'.format(x.system)
print 'idle: {0}'.format(x.idle)
print 'interrupt: {0}'.format(x.interrupt)
print 'dpc: {0}'.format(x.dpc)
print ' '
c = cpu_stats()
print 'cpu_stats()'
print c
print ' '
m = virtual_memory()
print 'virtual_memory(): '
print m
print ' '
#!/usr/bin/env python
import psutil
print psutil.cpu_times()
print "psutil.cpu_count is :", psutil.cpu_count()
print "psutil.cpu_times(percpu=True)",psutil.cpu_times(percpu=True)
for x in range(psutil.cpu_count()):
print psutil.cpu_percent(interval=1,percpu=True)
print "psutil.cpu_stats",psutil.cpu_stats()
for x in range(4):
print psutil.cpu_percent(interval=1,percpu=True)
print "virtual_memory is",psutil.virtual_memory()
print "swap_memory is ",psutil.swap_memory()
print "psutil.user is ",psutil.users()
print "psutil.disk_partitions is ",psutil.disk_partitions()
for x in (psutil.disk_partitions()):
print x
print psutil.disk_usage('c:\\')
print psutil.disk_io_counters(perdisk=True)
print 'net_io_counters',psutil.net_io_counters(pernic=False)
