sd_login_monitor_new
systemd
sd_login_monitor_new
3
sd_login_monitor_new
sd_login_monitor_unref
sd_login_monitor_unrefp
sd_login_monitor_flush
sd_login_monitor_get_fd
sd_login_monitor_get_events
sd_login_monitor_get_timeout
sd_login_monitor
Monitor login sessions, seats, users and virtual machines/containers
#include <systemd/sd-login.h>
int sd_login_monitor_new
const char *category
sd_login_monitor **ret
sd_login_monitor *sd_login_monitor_unref
sd_login_monitor *m
void sd_login_monitor_unrefp
sd_login_monitor **m
int sd_login_monitor_flush
sd_login_monitor *m
int sd_login_monitor_get_fd
sd_login_monitor *m
int sd_login_monitor_get_events
sd_login_monitor *m
int sd_login_monitor_get_timeout
sd_login_monitor *m
uint64_t *timeout_usec
Description
sd_login_monitor_new() may be used to
monitor login sessions, users, seats, and virtual
machines/containers. Via a monitor object a file descriptor can be
integrated into an application defined event loop which is woken
up each time a user logs in, logs out or a seat is added or
removed, or a session, user, seat or virtual machine/container
changes state otherwise. The first parameter takes a string which
can be seat (to get only notifications about
seats being added, removed or changed), session
(to get only notifications about sessions being created or removed
or changed), uid (to get only notifications
when a user changes state in respect to logins) or
machine (to get only notifications when a
virtual machine or container is started or stopped). If
notifications shall be generated in all these conditions,
NULL may be passed. Note that in the future
additional categories may be defined. The second parameter returns
a monitor object and needs to be freed with the
sd_login_monitor_unref() call after
use.
sd_login_monitor_unref() may be used to
destroy a monitor object. Note that this will invalidate any file
descriptor returned by
sd_login_monitor_get_fd().
sd_login_monitor_unrefp() is similar to
sd_login_monitor_unref() but takes a pointer
to a pointer to an sd_login_monitor object. This call
is useful in conjunction with GCC's and LLVM's Clean-up
Variable Attribute. Note that this function is defined as
inline function. Use a declaration like the following, in order to
allocate a login monitor object that is freed automatically as the
code block is left:
{
__attribute__((cleanup(sd_login_monitor_unrefp)) sd_login_monitor *m = NULL;
int r;
…
r = sd_login_monitor_default(&m);
if (r < 0)
fprintf(stderr, "Failed to allocate login monitor object: %s\n", strerror(-r));
…
}
sd_login_monitor_flush() may be used to
reset the wakeup state of the monitor object. Whenever an event
causes the monitor to wake up the event loop via the file
descriptor this function needs to be called to reset the wake-up
state. If this call is not invoked, the file descriptor will
immediately wake up the event loop again.
sd_login_monitor_unref() and
sd_login_monitor_unrefp() execute no
operation if the passed in monitor object is
NULL.
sd_login_monitor_get_fd() may be used
to retrieve the file descriptor of the monitor object that may be
integrated in an application defined event loop, based around
poll2
or a similar interface. The application should include the
returned file descriptor as wake-up source for the events mask
returned by sd_login_monitor_get_events(). It
should pass a timeout value as returned by
sd_login_monitor_get_timeout(). Whenever a
wake-up is triggered the file descriptor needs to be reset via
sd_login_monitor_flush(). An application
needs to reread the login state with a function like
sd_get_seats3
or similar to determine what changed.
sd_login_monitor_get_events() will
return the poll() mask to wait for. This
function will return a combination of POLLIN,
POLLOUT and similar to fill into the
.events field of struct
pollfd.
sd_login_monitor_get_timeout() will
return a timeout value for usage in poll().
This returns a value in microseconds since the epoch of
CLOCK_MONOTONIC for timing out
poll() in timeout_usec.
See
clock_gettime2
for details about CLOCK_MONOTONIC. If there
is no timeout to wait for this will fill in (uint64_t)
-1 instead. Note that poll() takes
a relative timeout in milliseconds rather than an absolute timeout
in microseconds. To convert the absolute 'µs' timeout into
relative 'ms', use code like the following:
uint64_t t;
int msec;
sd_login_monitor_get_timeout(m, &t);
if (t == (uint64_t) -1)
msec = -1;
else {
struct timespec ts;
uint64_t n;
clock_gettime(CLOCK_MONOTONIC, &ts);
n = (uint64_t) ts.tv_sec * 1000000 + ts.tv_nsec / 1000;
msec = t > n ? (int) ((t - n + 999) / 1000) : 0;
}
The code above does not do any error checking for brevity's
sake. The calculated msec integer can be passed
directly as poll()'s timeout
parameter.
Return Value
On success,
sd_login_monitor_new(),
sd_login_monitor_flush() and
sd_login_monitor_get_timeout()
return 0 or a positive integer. On success,
sd_login_monitor_get_fd() returns
a Unix file descriptor. On success,
sd_login_monitor_get_events()
returns a combination of POLLIN,
POLLOUT and suchlike. On failure,
these calls return a negative errno-style error
code.
sd_login_monitor_unref()
always returns NULL.
Errors
Returned errors may indicate the following problems:
-EINVAL
An input parameter was invalid (out of range, or NULL, where
that is not accepted). The specified category to watch is not known.
-ENOMEM
Memory allocation failed.
See Also
systemd1,
sd-login3,
sd_get_seats3,
poll2,
clock_gettime2