How do I set the hardware clock with Python on embedded Linux systems?
问题:
回答1:
Probably no easy way other than doing an os.system() call.
import os
os.system('hwclock --set %s' % date_str)
or using the 'date' command
import os
os.system('date -s %s' % date_str)
or if you are dying to do some c coding, wrapping the system calls with swig... but I think that would be more work than its worth.
回答2:
Use Python's os.system function to call the hwclock command.
回答3:
An updated version on Ubuntu 16.04:
import subprocess
import shlex
subprocess.call(shlex.split("timedatectl set-ntp false")) # May be necessary
subprocess.call(shlex.split("sudo date -s '2 OCT 2006 18:00:00'"))
subprocess.call(shlex.split("sudo hwclock -w"))
Important note: you may need to change the time/date settings to manually set (set-ntp false
) or else it will immediately change it back to the current time.
hwclock -w
sets the hardware clock based on the current system time (set by date
)
It is required that date
& hwclock
are run as sudo
as well.
回答4:
This uses ioctl
to set the hardware clock as requested (but not the system clock). It avoids extra processes but is more involved. I am using pytz
and dateutil
to handle local/utc conversions. Feel free to use the code (3-clause BSD License). Get the clock with get_hwclock()
and set it with set_hwclock()
...
from collections import namedtuple
from datetime import datetime
from fcntl import ioctl
import struct
from dateutil.tz import tzutc
from pytz import timezone
# From `uapi/asm-generic/ioctl.h`
_IOC_NRBITS = 8
_IOC_TYPEBITS = 8
_IOC_SIZEBITS = 14
_IOC_DIRBITS = 2
_IOC_NRMASK = (1 << _IOC_NRBITS) - 1
_IOC_TYPEMASK = (1 << _IOC_TYPEBITS) - 1
_IOC_SIZEMASK = (1 << _IOC_SIZEBITS) - 1
_IOC_DIRMASK = (1 << _IOC_DIRBITS) - 1
_IOC_NRSHIFT = 0
_IOC_TYPESHIFT = _IOC_NRSHIFT + _IOC_NRBITS
_IOC_SIZESHIFT = _IOC_TYPESHIFT + _IOC_TYPEBITS
_IOC_DIRSHIFT = _IOC_SIZESHIFT + _IOC_SIZEBITS
_IOC_NONE = 0
_IOC_WRITE = 1
_IOC_READ = 2
def _IOC(dir, type, nr, size):
return ((dir << _IOC_DIRSHIFT) |
(type << _IOC_TYPESHIFT) |
(nr << _IOC_NRSHIFT) |
(size << _IOC_SIZESHIFT))
def _IOC_TYPECHECK(t):
return len(t)
def _IO(type, nr):
return _IOC(_IOC_NONE, type, nr, 0)
def _IOR(type, nr, size):
return _IOC(_IOC_READ, type, nr, _IOC_TYPECHECK(size))
def _IOW(type, nr, size):
return _IOC(_IOC_WRITE, type, nr, _IOC_TYPECHECK(size))
def to_utc(dtobj):
if dtobj.tzinfo is None:
dtobj = timezone("UTC").localize(
dtobj.replace(tzinfo=None) - tzlocal().utcoffset(dtobj))
return dtobj.astimezone(timezone("UTC"))
class RtcTime(namedtuple(
# man(4) rtc
"RtcTime",
"tm_sec tm_min tm_hour "
"tm_mday tm_mon tm_year "
"tm_wday tm_yday tm_isdst" # Last row is unused.
)):
_fmt = 9 * "i"
def __new__(cls, tm_sec=0, tm_min=0, tm_hour=0,
tm_mday=0, tm_mon=0, tm_year=0,
tm_wday=0, tm_yday=0, tm_isdst=0):
return super(RtcTime, cls).__new__(cls, tm_sec, tm_min, tm_hour,
tm_mday, tm_mon, tm_year,
tm_wday, tm_yday, tm_isdst)
def __str__(self):
return self.to_datetime().isoformat()
@classmethod
def from_datetime(cls, dtobj):
dt = to_utc(dtobj)
return cls(tm_sec=dt.second, tm_min=dt.minute, tm_hour=dt.hour,
tm_mday=dt.day, tm_mon=dt.month - 1, tm_year=dt.year - 1900)
def to_datetime(self):
# From `hwclock.c`.
return datetime(
year=self.tm_year + 1900, month=self.tm_mon + 1, day=self.tm_mday,
hour=self.tm_hour, minute=self.tm_min, second=self.tm_sec,
tzinfo=tzutc())
def pack(self):
return struct.pack(self._fmt, *self)
@classmethod
def unpack(cls, buffer):
return cls._make(struct.unpack(cls._fmt, buffer))
# From `uapi/linux/rtc.h`
rtc_time = RtcTime().pack()
RTC_RD_TIME = _IOR(ord("p"), 0x09, rtc_time) # 0x80247009
RTC_SET_TIME = _IOW(ord("p"), 0x0a, rtc_time) # 0x4024700a
del rtc_time
def get_hwclock(devrtc="/dev/rtc"):
with open(devrtc) as rtc:
ret = ioctl(rtc, RTC_RD_TIME, RtcTime().pack())
return RtcTime.unpack(ret).to_datetime()
def set_hwclock(dt, devrtc="/dev/rtc"):
with open(devrtc) as rtc:
ioctl(rtc, RTC_SET_TIME, RtcTime.from_datetime(dt).pack())