__pmaf(3) — Linux manual page
PMAF(3) Library Functions Manual PMAF(3)
NAME
__pmAFsetup, __pmAFregister, __pmAFunregister, __pmAFblock,
__pmAFunblock, __pmAFisempty - event queue services for periodic
asynchronous callbacks
C SYNOPSIS
#include "pmapi.h"
#include "libpcp.h"
int __pmAFsetup(const struct timeval *start, const struct timeval
*delta, void *data, void (*func)(int, void *));
int __pmAFregister(const struct timeval *delta, void *data,
void (*func)(int, void *));
int __pmAFunregister(int afid);
void __pmAFblock(void);
void __pmAFunblock(void);
int __pmAFisempty(void);
cc ... -lpcp
CAVEAT
This documentation is intended for internal Performance Co-Pilot
(PCP) developer use.
These interfaces are not part of the PCP APIs that are guaranteed
to remain fixed across releases, and they may not work, or may
provide different semantics at some point in the future.
DESCRIPTION
The routines implement an event queue and callback framework that
supports periodic evaluation of a series of events with varying
frequencies for Performance Co-Pilot (PCP) applications.
The pmlogger(1) application, the pmdatrace(1) PMDA and the
pmdahotproc(1) PMDA are the principal users of these services.
An event is created by calling __pmAFsetup or __pmAFregister and
on success the return value is an event number greater than zero.
The event has associated event data identified by the opaque
pointer data. The event will occur with frequency delta and each
time the event occurs the function func will be called with the
event number and the event data as arguments.
If __pmAFsetup is used then the first event is scheduled for the
current time plus start, else if __pmAFregister is used then the
first event is scheduled for the current time plus delta.
func is called in a SIGALRM signal handler context and so the
routines that may be safely called from func are restricted to
the so-called async-signal-safe set. In particular there must be
no Standard I/O calls nor calls to any of the malloc(3) routines
to modify the state of the heap. Refer to the Pointer to a Func‐
tion Section of the POSIX.1-2013 document at
http://pubs.opengroup.org/onlinepubs/9699919799/functions/V2_chap02.html
for a fuller description.
The safest and simplest class of func routines are those that do
minimal processing, set some global state and return. The real
work associated with the event is done subsequently from the ap‐
plication's main loop when the global state change is detected.
Once the event occurs and the callback has been executed, the
event will be rescheduled for delta into the future, except if
all the fields of delta are zero, in which case the event will
not be rescheduled (a ``one trip'' event).
Internally, events are processed serially so there is no possi‐
bility of nested callbacks or re-entrant callbacks from the event
management routines.
Given an event number afid, __pmAFunregister will permanently re‐
move the corresponding entry from the event queue.
To control the event queue processing, __pmAFblock and __pmAFun‐
block may be used to explicitly block and unblock the dispatch of
events. This is most useful when the caller wishes to set up a
number of events via __pmAFsetup or __pmAFregister and complete
the registration phase before the first event callback occurs.
A call to __pmAFisempty returns 1 or 0 depending on whether the
event queue is empty or not.
CAVEATS
These routines rely on setitimer(2) and manipulate the handling
of SIGALRM signals, and hence are probably ill-suited for appli‐
cations that require direct and concurrent access to these ser‐
vices and resources.
If the callback functions are slow, or delayed, it is possible
that the event scheduling could fall behind and never catchup.
When this begins to happen, events are silently skipped and
rescheduled at the earliest possible time in the future according
to the fixed schedule defined by the time of the call to __pmAF‐
setup and the value of the start and delta arguments (or defined
by the time of the call to __pmAFregister and the value of the
delta argument).
In addition, the semantics of the interval timer(s) and the glob‐
al state needed to support these services demand that applica‐
tions calling these routines must do so from a single thread.
This restriction is enforced at the PMAPI(3), where routines may
return the error code PM_ERR_THREAD if the library detects calls
from more than one thread.
DIAGNOSTICS
__pmAFsetup, __pmAFregister and __pmAFunregister return values
less than zero in the case of an error. These values are PCP er‐
ror codes, and may be used to produce error messages via
pmErrStr(3).
The routines support the standard PCP debug tracing, and the af
option (or -D af on the command line) will produce diagnostics on
standard error that trace the enqueuing and execution of events.
SEE ALSO
PMAPI(3)
COLOPHON
This page is part of the PCP (Performance Co-Pilot) project. In‐
formation about the project can be found at ⟨http://www.pcp.io/⟩.
If you have a bug report for this manual page, send it to
pcp@groups.io. This page was obtained from the project's
upstream Git repository
⟨https://github.com/performancecopilot/pcp.git⟩ on 2024-06-14.
(At that time, the date of the most recent commit that was found
in the repository was 2024-06-14.) If you discover any rendering
problems in this HTML version of the page, or you believe there
is a better or more up-to-date source for the page, or you have
corrections or improvements to the information in this COLOPHON
(which is not part of the original manual page), send a mail to
man-pages@man7.org
Performance Co-Pilot PCP PMAF(3)
Pages that refer to this page: pmapi_internal(3)