table of contents
other sections
FFCLOCK(2) | System Calls Manual | FFCLOCK(2) |
NAME¶
ffclock_getcounter
,
ffclock_getestimate
,
ffclock_setestimate
—
Retrieve feed-forward counter, get and set
feed-forward clock estimates
LIBRARY¶
Standard C Library (libc, -lc)SYNOPSIS¶
#include
<sys/timeffc.h>
int
ffclock_getcounter
(ffcounter
*ffcount);
int
ffclock_getestimate
(struct
ffclock_estimate *cest);
int
ffclock_setestimate
(struct
ffclock_estimate *cest);
DESCRIPTION¶
The ffclock is an alternative method to synchronise the system clock. The ffclock implements a feed-forward paradigm and decouples the timestamping and timekeeping kernel functions. This ensures that past clock errors do not affect current timekeeping, an approach radically different from the feedback alternative implemented by the ntpd daemon when adjusting the system clock. The feed-forward approach has demonstrated better performance and higher robustness than a feedback approach when synchronising over the network. In the feed-forward context, a timestamp is a cumulative value of the ticks of the timecounter, which can be converted into seconds by using the feed-forward clock estimates. Theffclock_getcounter
() system call allows
the calling process to retrieve the current value of the feed-forward counter
maintained by the kernel.
The ffclock_getestimate
() and
ffclock_setestimate
() system calls allow
the caller to get and set the kernel's feed-forward clock parameter estimates
respectively. The ffclock_setestimate
()
system call should be invoked by a single instance of a feed-forward
synchronisation daemon. The
ffclock_getestimate
() system call can be
called by any process to retrieve the feed-forward clock estimates.
The feed-forward approach does not require that the clock estimates be retrieved
every time a timestamp is to be converted into seconds. The number of system
calls can therefore be greatly reduced if the calling process retrieves the
clock estimates from the clock synchronisation daemon instead. The
ffclock_getestimate
() must be used when the
feed-forward synchronisation daemon is not running (see
USAGE below).
The clock parameter estimates structure pointed to by
cest is defined in
<sys/timeffc.h>
as:
struct ffclock_estimate { struct bintime update_time; /* Time of last estimates update. */ ffcounter update_ffcount; /* Counter value at last update. */ ffcounter leapsec_next; /* Counter value of next leap second. */ uint64_t period; /* Estimate of counter period. */ uint32_t errb_abs; /* Bound on absolute clock error [ns]. */ uint32_t errb_rate; /* Bound on counter rate error [ps/s]. */ uint32_t status; /* Clock status. */ int16_t leapsec_total; /* All leap seconds seen so far. */ int8_t leapsec; /* Next leap second (in {-1,0,1}). */ };
RETURN VALUES¶
Upon successful completion, the value 0 is returned; otherwise the value -1 is returned and the global variable errno is set to indicate the error.ERRORS¶
The following error codes may be set in errno:- [
EFAULT
] - The ffcount or cest pointer referenced invalid memory.
- [
EPERM
] - A user other than the super-user attempted to set the feed-forward clock parameter estimates.
USAGE¶
The feed-forward paradigm enables the definition of specialised clock functions. In its simplest form,ffclock_getcounter
()
can be used to establish strict order between events or to measure small time
intervals very accurately with a minimum performance cost.
Different methods exist to access absolute time (or “wall-clock
time”) tracked by the ffclock. The simplest method uses the ffclock
sysctl interface kern.ffclock to make the
system clock return the ffclock time. The
clock_gettime(2) system call can then be used to
retrieve the current time seen by the feed-forward clock. Note that this
setting affects the entire system and that a feed-forward synchronisation
daemon should be running.
A less automated method consists of retrieving the feed-forward counter
timestamp from the kernel and using the feed-forward clock parameter estimates
to convert the timestamp into seconds. The feed-forward clock parameter
estimates can be retrieved from the kernel or from the synchronisation daemon
directly (preferred). This method allows converting timestamps using different
clock models as needed by the application, while collecting meaningful upper
bounds on current clock error.
SEE ALSO¶
date(1), adjtime(2), clock_gettime(2), ctime(3)HISTORY¶
Feed-forward clock support first appeared in FreeBSD 10.0.AUTHORS¶
The feed-forward clock support was written by Julien Ridoux ⟨jridoux@unimelb.edu.au⟩ in collaboration with Darryl Veitch ⟨dveitch@unimelb.edu.au⟩ at the University of Melbourne under sponsorship from the FreeBSD Foundation.November 21, 2011 | Debian |