Provided by: freebsd-manpages_10.1~RC1-1_all 
NAME
osd, osd_register, osd_deregister, osd_set, osd_get, osd_del, osd_call, osd_exit — Object
Specific Data
SYNOPSIS
#include <sys/osd.h>
typedef void
(*osd_destructor_t)(void *value);
typedef int
(*osd_method_t)(void *obj, void *data);
int
osd_register(u_int type, osd_destructor_t destructor, osd_method_t *methods);
void
osd_deregister(u_int type, u_int slot);
int
osd_set(u_int type, struct osd *osd, u_int slot, void *value);
void *
osd_get(u_int type, struct osd *osd, u_int slot);
void
osd_del(u_int type, struct osd *osd, u_int slot);
int
osd_call(u_int type, u_int method, void *obj, void *data);
void
osd_exit(u_int type, struct osd *osd);
DESCRIPTION
The osd framework provides a mechanism to dynamically associate arbitrary data at run-time
with any kernel data structure which has been suitably modified for use with osd. The one-
off modification required involves embedding a struct osd inside the kernel data structure.
An additional benefit is that after the initial change to a structure is made, all
subsequent use of osd with the structure involves no changes to the structure's layout. By
extension, if the data structure is part of the ABI, osd provides a way of extending the
structure in an ABI preserving manner.
The details of the embedded struct osd are not relevant to consumers of the osd framework
and should not be manipulated directly.
Data associated with a structure is referenced by the osd framework using a type/slot
identifier pair. Types are statically defined in <sys/osd.h> and provide a high-level
grouping for slots to be registered under. Slot identifiers are dynamically assigned by the
framework when a data type is registered using osd_register() and remains valid until a
corresponding call to osd_deregister().
Functions
The osd_register() function registers a type/slot identifier pair with the osd framework for
use with a new data type. The function may sleep and therefore cannot be called from a non-
sleepable context. The type argument specifies which high-level type grouping from
<sys/osd.h> the slot identifier should be allocated under. The destructor argument
specifies an optional osd_destructor_t function pointer that will be called for objects of
the type being registered which are later destroyed by the osd_del() function. NULL may be
passed if no destructor is required. The methods argument specifies an optional array of
osd_method_t function pointers which can be later invoked by the osd_call() function. NULL
may be passed if no methods are required. The methods argument is currently only useful
with the OSD_JAIL type identifier.
The osd_deregister() function deregisters a previously registered type/slot identifier pair.
The function may sleep and therefore cannot be called from a non-sleepable context. The
type argument specifies which high-level type grouping from <sys/osd.h> the slot identifier
is allocated under. The slot argument specifies the slot identifier which is being
deregistered and should be the value that was returned by osd_register() when the data type
was registered.
The osd_set() function associates a data object pointer with a kernel data structure's
struct osd member. The type argument specifies which high-level type grouping from
<sys/osd.h> the slot identifier is allocated under. The osd argument is a pointer to the
kernel data structure's struct osd which will have the value pointer associated with it.
The slot argument specifies the slot identifier to assign the value pointer to. The value
argument points to a data object to associate with osd.
The osd_get() function returns the data pointer associated with a kernel data structure's
struct osd member from the specified type/slot identifier pair. The type argument specifies
which high-level type grouping from <sys/osd.h> the slot identifier is allocated under. The
osd argument is a pointer to the kernel data structure's struct osd to retrieve the data
pointer from. The slot argument specifies the slot identifier to retrieve the data pointer
from.
The osd_del() function removes the data pointer associated with a kernel data structure's
struct osd member from the specified type/slot identifier pair. The type argument specifies
which high-level type grouping from <sys/osd.h> the slot identifier is allocated under. The
osd argument is a pointer to the kernel data structure's struct osd to remove the data
pointer from. The slot argument specifies the slot identifier to remove the data pointer
from. If an osd_destructor_t function pointer was specified at registration time, the
destructor function will be called and passed the data pointer for the type/slot identifier
pair which is being deleted.
The osd_call() function calls the specified osd_method_t function pointer for all currently
registered slots of a given type on the specified obj and data pointers. The function may
sleep and therefore cannot be called from a non-sleepable context. The type argument
specifies which high-level type grouping from <sys/osd.h> to call the method for. The
method argument specifies the index into the osd_method_t array that was passed to
osd_register(). The obj and data arguments are passed to the method function pointer of
each slot.
The osd_exit() function removes all data object pointers from all currently registered slots
for a given type for the specified kernel data structure's struct osd member. The type
argument specifies which high-level type grouping from <sys/osd.h> to remove data pointers
from. The osd argument is a pointer to the kernel data structure's struct osd to remove all
data object pointers for all currently registered slots from.
IMPLEMENTATION NOTES
osd uses a two dimensional matrix (array of arrays) as the data structure to manage the
external data associated with a kernel data structure's struct osd member. The type
identifier is used as the index into the outer array, and the slot identifier is used as the
index into the inner array. To set or retrieve a data pointer for a given type/slot
identifier pair, osd_set() and osd_get() perform the equivalent of array[type][slot], which
is both constant time and fast.
If osd_set() is called on a struct osd for the first time, the array for storing data
pointers is dynamically allocated using malloc(9) with M_NOWAIT to a size appropriate for
the slot identifier being set. If a subsequent call to osd_set() attempts to set a slot
identifier which is numerically larger than the slot used in the previous osd_set() call,
realloc(9) is used to grow the array to the appropriate size such that the slot identifier
can be used. To maximise the efficiency of any code which calls osd_set() sequentially on a
number of different slot identifiers (e.g. during an initialisation phase) one should loop
through the slot identifiers in descending order from highest to lowest. This will result
in only a single malloc(9) call to create an array of the largest slot size and all
subsequent calls to osd_set() will proceed without any realloc(9) calls.
The osd API is geared towards slot identifiers storing pointers to the same underlying data
structure type for a given osd type identifier. This is not a requirement, and khelp(9) for
example stores completely different data types in slots under the OSD_KHELP type identifier.
Locking
osd internally uses a mix of mutex(9), rmlock(9) and sx(9) locks to protect its internal
data structures and state.
Responsibility for synchronising access to a kernel data structure's struct osd member is
left to the subsystem that uses the data structure and calls the osd API.
osd_get() only acquires an rmlock in read mode, therefore making it safe to use in the
majority of contexts within the kernel including most fast paths.
RETURN VALUES
osd_register() returns the slot identifier for the newly registered data type.
osd_set() returns zero on success or ENOMEM if the specified type/slot identifier pair
triggered an internal realloc(9) which failed.
osd_get() returns the data pointer for the specified type/slot identifier pair, or NULL if
the slot has not been initialised yet.
osd_call() returns zero if no method is run or the method for each slot runs successfully.
If a method for a slot returns non-zero, osd_call() terminates prematurely and returns the
method's error to the caller.
SEE ALSO
khelp(9)
HISTORY
The Object Specific Data (OSD) facility first appeared in FreeBSD 8.0.
AUTHORS
The osd facility was written by Pawel Jakub Dawidek <pjd@FreeBSD.org>.
This manual page was written by Lawrence Stewart <lstewart@FreeBSD.org>.