module —
structure describing a kernel module
Each module in the kernel is described by a
module_t structure. The structure contains
the name of the device, a unique ID number, a pointer to an event handler
function and to an argument, which is given to the event handler, as well as
some kernel internal data.
The
DECLARE_MODULE(9) macro registers the module
with the system.
When the module is loaded, the event handler function is called with the
what argument set to
MOD_LOAD.
On unload it is first called with
what set to
MOD_QUIESCE. If the unload was not forced,
a non-zero return will prevent the unload from happening.
If the unload continues
what is set to
MOD_UNLOAD. If the module returns non-zero
to this, the unload will not happen.
The difference between
MOD_QUIESCE and
MOD_UNLOAD is that the module should fail
MOD_QUIESCE if it is currently in use,
whereas
MOD_UNLOAD should only fail if it
is impossible to unload the module, for instance because there are memory
references to the module which cannot be revoked.
When the system is shutting down,
what contains
the value of
MOD_SHUTDOWN.
The module should return
EOPNOTSUPP for
unsupported and unrecognized values of
what.
#include <sys/param.h>
#include <sys/kernel.h>
#include <sys/module.h>
static int foo_handler(module_t mod, int /*modeventtype_t*/ what,
void *arg);
static moduledata_t mod_data= {
"foo",
foo_handler,
NULL
};
MODULE_VERSION(foo, 1);
MODULE_DEPEND(foo, bar, 1, 3, 4);
DECLARE_MODULE(foo, mod_data, SI_SUB_EXEC, SI_ORDER_ANY);
DECLARE_MODULE(9),
DEV_MODULE(9),
DRIVER_MODULE(9),
MODULE_DEPEND(9),
MODULE_PNP_INFO(9),
MODULE_VERSION(9),
SYSCALL_MODULE(9)
/usr/share/examples/kld
This manual page was written by
Alexander
Langer
<
[email protected]>.