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The ntp_gettime and ntp_adjtime functions provide an
interface to monitor and manipulate the system clock to maintain high
accuracy time. For example, you can fine tune the speed of the clock
or synchronize it with another time source.
A typical use of these functions is by a server implementing the Network Time Protocol to synchronize the clocks of multiple systems and high precision clocks.
These functions are declared in sys/timex.h.
This structure is used for information about the system clock. It contains the following members:
struct timeval timeThis is the current calendar time, expressed as the elapsed time since
the epoch. The struct timeval data type is described in
Elapsed Time.
long int maxerrorThis is the maximum error, measured in microseconds. Unless updated
via ntp_adjtime periodically, this value will reach some
platform-specific maximum value.
long int esterrorThis is the estimated error, measured in microseconds. This value can
be set by ntp_adjtime to indicate the estimated offset of the
system clock from the true calendar time.
Preliminary: | MT-Safe | AS-Safe | AC-Safe | See POSIX Safety Concepts.
The ntp_gettime function sets the structure pointed to by
tptr to current values. The elements of the structure afterwards
contain the values the timer implementation in the kernel assumes. They
might or might not be correct. If they are not, an ntp_adjtime
call is necessary.
The return value is 0 on success and other values on failure. The
following errno error conditions are defined for this function:
TIME_ERROR ¶The precision clock model is not properly set up at the moment, thus the clock must be considered unsynchronized, and the values should be treated with care.
This structure is used to control and monitor the system clock. It contains the following members:
unsigned int modesThis variable controls whether and which values are set. Several
symbolic constants have to be combined with binary or to specify
the effective mode. These constants start with MOD_.
long int offsetThis value indicates the current offset of the system clock from the true
calendar time. The value is given in microseconds. If bit
MOD_OFFSET is set in modes, the offset (and possibly other
dependent values) can be set. The offset’s absolute value must not
exceed MAXPHASE.
long int frequencyThis value indicates the difference in frequency between the true
calendar time and the system clock. The value is expressed as scaled
PPM (parts per million, 0.0001%). The scaling is 1 <<
SHIFT_USEC. The value can be set with bit MOD_FREQUENCY, but
the absolute value must not exceed MAXFREQ.
long int maxerrorThis is the maximum error, measured in microseconds. A new value can be
set using bit MOD_MAXERROR. Unless updated via
ntp_adjtime periodically, this value will increase steadily
and reach some platform-specific maximum value.
long int esterrorThis is the estimated error, measured in microseconds. This value can
be set using bit MOD_ESTERROR.
int statusThis variable reflects the various states of the clock machinery. There
are symbolic constants for the significant bits, starting with
STA_. Some of these flags can be updated using the
MOD_STATUS bit.
long int constantThis value represents the bandwidth or stiffness of the PLL (phase
locked loop) implemented in the kernel. The value can be changed using
bit MOD_TIMECONST.
long int precisionThis value represents the accuracy or the maximum error when reading the system clock. The value is expressed in microseconds.
long int toleranceThis value represents the maximum frequency error of the system clock in
scaled PPM. This value is used to increase the maxerror every
second.
struct timeval timeThe current calendar time.
long int tickThe elapsed time between clock ticks in microseconds. A clock tick is a periodic timer interrupt on which the system clock is based.
long int ppsfreqThis is the first of a few optional variables that are present only if the system clock can use a PPS (pulse per second) signal to discipline the system clock. The value is expressed in scaled PPM and it denotes the difference in frequency between the system clock and the PPS signal.
long int jitterThis value expresses a median filtered average of the PPS signal’s dispersion in microseconds.
int shiftThis value is a binary exponent for the duration of the PPS calibration
interval, ranging from PPS_SHIFT to PPS_SHIFTMAX.
long int stabilThis value represents the median filtered dispersion of the PPS frequency in scaled PPM.
long int jitcntThis counter represents the number of pulses where the jitter exceeded
the allowed maximum MAXTIME.
long int calcntThis counter reflects the number of successful calibration intervals.
long int errcntThis counter represents the number of calibration errors (caused by large offsets or jitter).
long int stbcntThis counter denotes the number of calibrations where the stability exceeded the threshold.
Preliminary: | MT-Safe | AS-Safe | AC-Safe | See POSIX Safety Concepts.
The ntp_adjtime function sets the structure specified by
tptr to current values.
In addition, ntp_adjtime updates some settings to match what you
pass to it in *tptr. Use the modes element of *tptr
to select what settings to update. You can set offset,
freq, maxerror, esterror, status,
constant, and tick.
modes = zero means set nothing.
Only the superuser can update settings.
The return value is 0 on success and other values on failure. The
following errno error conditions are defined for this function:
TIME_ERRORThe high accuracy clock model is not properly set up at the moment, thus the clock must be considered unsynchronized, and the values should be treated with care. Another reason could be that the specified new values are not allowed.
EPERMThe process specified a settings update, but is not superuser.
For more details see RFC1305 (Network Time Protocol, Version 3) and related documents.
Portability note: Early versions of the GNU C Library did not
have this function but did have the synonymous adjtimex.
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