sd_bus_get_fd, sd_bus_get_events, sd_bus_get_timeout — Get the file descriptor, I/O events and timeout to wait for from a message bus object
#include <systemd/sd-bus.h>
int sd_bus_get_fd( | sd_bus *bus) ; |
int sd_bus_get_events( | sd_bus *bus) ; |
int sd_bus_get_timeout( | sd_bus *bus, |
uint64_t *timeout_usec) ; |
sd_bus_get_fd()
returns the file descriptor used to communicate from
a message bus object. This descriptor can be used with
poll(3)
or a similar function to wait for I/O events on the specified bus connection object. If the bus
object was configured with the sd_bus_set_fd()
function, then the
input_fd
file descriptor used in that call is returned.
sd_bus_get_events()
returns the I/O events to wait for, suitable for
passing to poll()
or a similar call. Returns a combination of
POLLIN
, POLLOUT
, … events, or negative on error.
sd_bus_get_timeout()
returns the absolute time-out in μs,
from which the relative time-out to pass to poll()
(or a similar call) can be
derived, when waiting for events on the specified bus connection. The returned timeout may be zero, in
which case a subsequent I/O polling call should be invoked in non-blocking mode. The returned timeout may
be UINT64_MAX
in which case the I/O polling call may block indefinitely, without any
applied timeout. Note that the returned timeout should be considered only a maximum sleeping time. It is
permissible (and even expected) that shorter timeouts are used by the calling program, in case other
event sources are polled in the same event loop. Note that the returned time-value is absolute, based of
CLOCK_MONOTONIC
and specified in microseconds. When converting this value in order
to pass it as third argument to poll()
(which expects relative milliseconds), care
should be taken to convert to a relative time and use a division that rounds up to ensure the I/O polling
operation doesn't sleep for shorter than necessary, which might result in unintended busy looping
(alternatively, use ppoll(2) instead
of plain poll()
, which understands timeouts with nano-second granularity).
These three functions are useful to hook up a bus connection object with an external or
manual event loop involving poll()
or a similar I/O polling call. Before
each invocation of the I/O polling call, all three functions should be invoked: the file
descriptor returned by sd_bus_get_fd()
should be polled for the events
indicated by sd_bus_get_events()
, and the I/O call should block for that up
to the timeout returned by sd_bus_get_timeout()
. After each I/O polling
call the bus connection needs to process incoming or outgoing data, by invoking
sd_bus_process(3).
Note that these functions are only one of three supported ways to implement I/O event handling for bus connections. Alternatively use sd_bus_attach_event(3) to attach a bus connection to an sd-event(3) event loop. Or use sd_bus_wait(3) as a simple synchronous, blocking I/O waiting call.
On success, sd_bus_get_fd()
returns the file descriptor used for
communication. On failure, it returns a negative errno-style error code.
On success, sd_bus_get_events()
returns the I/O event mask to use for
I/O event watching. On failure, it returns a negative errno-style error code.
On success, sd_bus_get_timeout()
returns a non-negative integer. On
failure, it returns a negative errno-style error code.
Returned errors may indicate the following problems:
-EINVAL
¶An invalid bus object was passed.
-ECHILD
¶The bus connection was allocated in a parent process and is being reused
in a child process after fork()
.
-ENOTCONN
¶The bus connection has been terminated.
-EPERM
¶Two distinct file descriptors were passed for input and output using
sd_bus_set_fd()
, which sd_bus_get_fd()
cannot
return.
-ENOPKG
¶The bus cannot be resolved.
Functions described here are available as a shared
library, which can be compiled against and linked to with the
libsystemd
pkg-config(1)
file.
The code described here uses
getenv(3),
which is declared to be not multi-thread-safe. This means that the code calling the functions described
here must not call
setenv(3)
from a parallel thread. It is recommended to only do calls to setenv()
from an early phase of the program when no other threads have been started.