How to retrieve the process start time (or uptime) in python
How to retrieve the process start time (or uptime) in python in Linux?
I only know开发者_运维百科, I can call "ps -p my_process_id -f" and then parse the output. But it is not cool.
By using psutil https://github.com/giampaolo/psutil:
>>> import psutil, os, time
>>> p = psutil.Process(os.getpid())
>>> p.create_time()
1293678383.0799999
>>> time.strftime("%Y-%m-%d %H:%M:%S", time.localtime(p.create_time()))
'2010-12-30 04:06:23'
>>>
...plus it's cross platform, not only Linux.
NB: I am one of the authors of this project.
If you are doing it from within the python program you're trying to measure, you could do something like this:
import time
# at the beginning of the script
startTime = time.time()
# ...
def getUptime():
"""
Returns the number of seconds since the program started.
"""
# do return startTime if you just want the process start time
return time.time() - startTime
Otherwise, you have no choice but to parse ps
or go into /proc/pid
. A nice bash
y way of getting the elapsed time is:
ps -eo pid,etime | grep $YOUR_PID | awk '{print $2}'
This will only print the elapsed time in the following format, so it should be quite easy to parse:
days-HH:MM:SS
(if it's been running for less than a day, it's just HH:MM:SS
)
The start time is available like this:
ps -eo pid,stime | grep $YOUR_PID | awk '{print $2}'
Unfortunately, if your process didn't start today, this will only give you the date that it started, rather than the time.
The best way of doing this is to get the elapsed time and the current time and just do a bit of math. The following is a python script that takes a PID as an argument and does the above for you, printing out the start date and time of the process:
import sys
import datetime
import time
import subprocess
# call like this: python startTime.py $PID
pid = sys.argv[1]
proc = subprocess.Popen(['ps','-eo','pid,etime'], stdout=subprocess.PIPE)
# get data from stdout
proc.wait()
results = proc.stdout.readlines()
# parse data (should only be one)
for result in results:
try:
result.strip()
if result.split()[0] == pid:
pidInfo = result.split()[1]
# stop after the first one we find
break
except IndexError:
pass # ignore it
else:
# didn't find one
print "Process PID", pid, "doesn't seem to exist!"
sys.exit(0)
pidInfo = [result.split()[1] for result in results
if result.split()[0] == pid][0]
pidInfo = pidInfo.partition("-")
if pidInfo[1] == '-':
# there is a day
days = int(pidInfo[0])
rest = pidInfo[2].split(":")
hours = int(rest[0])
minutes = int(rest[1])
seconds = int(rest[2])
else:
days = 0
rest = pidInfo[0].split(":")
if len(rest) == 3:
hours = int(rest[0])
minutes = int(rest[1])
seconds = int(rest[2])
elif len(rest) == 2:
hours = 0
minutes = int(rest[0])
seconds = int(rest[1])
else:
hours = 0
minutes = 0
seconds = int(rest[0])
# get the start time
secondsSinceStart = days*24*3600 + hours*3600 + minutes*60 + seconds
# unix time (in seconds) of start
startTime = time.time() - secondsSinceStart
# final result
print "Process started on",
print datetime.datetime.fromtimestamp(startTime).strftime("%a %b %d at %I:%M:%S %p")
man proc
says that the 22nd item in /proc/my_process_id/stat
is:
starttime %lu
The time in jiffies the process started after system boot.
Your problem now is, how to determine the length of a jiffy and how to determine when the system booted.
The answer for the latter comes still from man proc
: it's in /proc/stat
, on a line of its own like this:
btime 1270710844
That's a measurement in seconds since Epoch.
The answer for the former I'm not sure about. man 7 time
says:
The Software Clock, HZ, and Jiffies
The accuracy of many system calls and timestamps is limited by the resolution of the software clock, a clock maintained by the kernel which measures time in jiffies. The size of a jiffy is determined by the value of the kernel constant
HZ
. The value ofHZ
varies across kernel versions and hardware platforms. On x86 the situation is as follows: on kernels up to and including 2.4.x,HZ
was 100, giving a jiffy value of 0.01 seconds; starting with 2.6.0,HZ
was raised to 1000, giving a jiffy of 0.001 seconds; since kernel 2.6.13, theHZ
value is a kernel configuration parameter and can be 100, 250 (the default) or 1000, yielding a jiffies value of, respectively, 0.01, 0.004, or 0.001 seconds.
We need to find HZ
, but I have no idea on how I'd go about that from Python except for hoping the value is 250 (as Wikipedia claims is the default).
ps
obtains it thus:
/* sysinfo.c init_libproc() */
if(linux_version_code > LINUX_VERSION(2, 4, 0)){
Hertz = find_elf_note(AT_CLKTCK);
//error handling
}
old_Hertz_hack(); //ugh
This sounds like a job well done by a very small C module for Python :)
Here's code based on badp's answer:
import os
from time import time
HZ = os.sysconf(os.sysconf_names['SC_CLK_TCK'])
def proc_age_secs():
system_stats = open('/proc/stat').readlines()
process_stats = open('/proc/self/stat').read().split()
for line in system_stats:
if line.startswith('btime'):
boot_timestamp = int(line.split()[1])
age_from_boot_jiffies = int(process_stats[21])
age_from_boot_timestamp = age_from_boot_jiffies / HZ
age_timestamp = boot_timestamp + age_from_boot_timestamp
return time() - age_timestamp
I'm not sure if it's right though. I wrote a test program that calls sleep(5) and then runs it and the output is wrong and varies over a couple of seconds from run to run. This is in a vmware workstation vm:
if __name__ == '__main__':
from time import sleep
sleep(5)
print proc_age_secs()
The output is:
$ time python test.py
6.19169998169
real 0m5.063s
user 0m0.020s
sys 0m0.036s
def proc_starttime(pid=os.getpid()):
# https://gist.github.com/westhood/1073585
p = re.compile(r"^btime (\d+)$", re.MULTILINE)
with open("/proc/stat") as f:
m = p.search(f.read())
btime = int(m.groups()[0])
clk_tck = os.sysconf(os.sysconf_names["SC_CLK_TCK"])
with open("/proc/%d/stat" % pid) as f:
stime = int(f.read().split()[21]) / clk_tck
return datetime.fromtimestamp(btime + stime)
you can parse /proc/uptime
>>> uptime, idletime = [float(f) for f in open("/proc/uptime").read().split()]
>>> print uptime
29708.1
>>> print idletime
26484.45
for windows machines, you can probably use wmi
import wmi
c = wmi.WMI()
secs_up = int([uptime.SystemUpTime for uptime in c.Win32_PerfFormattedData_PerfOS_System()][0])
hours_up = secs_up / 3600
print hours_up
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