xref: /illumos-gate/usr/src/man/man9f/id_space.9f (revision bde334a8dbd66dfa70ce4d7fc9dcad6e1ae45fe4)
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12.\" Copyright 2016 Joyent, Inc.
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14.Dd Aug 02, 2016
15.Dt ID_SPACE 9F
16.Os
17.Sh NAME
18.Nm id_space ,
19.Nm id_space_create ,
20.Nm id_space_destroy ,
21.Nm id_space_extend ,
22.Nm id_alloc ,
23.Nm id_alloc_nosleep ,
24.Nm id_allocff ,
25.Nm id_allocff_nosleep ,
26.Nm id_alloc_specific_nosleep ,
27.Nm id_free
28.Nd create, destroy, and use identifier spaces
29.Sh SYNOPSIS
30.In sys/id_space.h
31.Ft "id_space_t *"
32.Fo id_space_create
33.Fa "const char *name"
34.Fa "id_t low"
35.Fa "id_t high"
36.Fc
37.Ft void
38.Fo id_space_destroy
39.Fa "id_space_t *idspace"
40.Fc
41.Ft void
42.Fo id_space_extend
43.Fa "id_t low"
44.Fa "id_t high"
45.Fc
46.Ft id_t
47.Fo id_alloc
48.Fa "id_space_t *idspace"
49.Fc
50.Ft id_t
51.Fo id_alloc_nosleep
52.Fa "id_space_t *idspace"
53.Fc
54.Ft id_t
55.Fo id_allocff
56.Fa "id_space_t *idspace"
57.Fc
58.Ft id_t
59.Fo id_allocff_nosleep
60.Fa "id_space_t *idspace"
61.Fc
62.Ft id_t
63.Fo id_allocff_specific_nosleep
64.Fa "id_space_t *idspace"
65.Fa "id_t id"
66.Fc
67.Ft void
68.Fo id_free
69.Fa "id_space_t *idspace"
70.Fa "id_t id"
71.Fc
72.Sh INTERFACE STABILITY
73illumos DDI specific
74.Sh PARAMETERS
75.Bl -tag -width Fa
76.It Fa idspace
77A pointer to an
78.Sy id_space_t
79structure allocated with the
80.Fn id_space_create
81function.
82.It Fa id
83An identifier, a signed 32-bit integer.
84.It Fa name
85An ASCII character string to call the identifier space.
86.It Fa low
87The lower end of an identifier space.
88This value is included in the range.
89.It Fa high
90The upper end of an identifier space.
91This value is excluded from the range.
92.El
93.Sh DESCRIPTION
94The
95.Sy id_space
96suite of functions is used to create and manage identifier spaces.
97An identifier space allows the system to manage a range of identifiers.
98It tracks what values have been used and which values have not been used
99and has different ways of allocating values from the identifier space.
100.Pp
101Identifier spaces are often used by device drivers to manage ranges of
102numeric identifiers that may be disjoint.
103A common use case for identifier spaces is to manage the set of allocated minor
104numbers for a device driver.
105.Ss Creating, Expanding and Destroying Identifier Spaces
106To create an identifier space, the
107.Fn id_space_create
108function should be used.
109A name for the id space must be passed in the
110.Fa name
111argument.
112It should be unique.
113For device drivers, often combining the name of the driver and the instance from
114the
115.Xr ddi_get_instance 9F
116function results in a unique name.
117.Pp
118The values of
119.Fa low
120and
121.Fa high
122describe the range of the identifier space.
123The range is inclusive on the low end and exclusive on the high end.
124Mathematically, this would be represented as
125.Pf [ Fa low ,
126.Fa high Ns ).
127.Pp
128Once the
129.Fn id_space_create
130function has been successfully called, the returned identifier space can
131be used to allocate and manage identifiers.
132.Pp
133Once an identifier space has been created, additional ranges of
134identifiers can be added.
135This process allows for disjoint ranges of values to be added to a single
136identifier space.
137The
138.Fn id_space_extend
139function is used to do this, and it adds the range
140.Fa low
141to
142.Fa high
143to the identifier space.
144The range follows the same rules as with the
145.Fn id_space_create
146function.
147It is inclusive of
148.Fa low
149and is exclusive of
150.Fa high .
151.Pp
152Finally, when an identifier space is no longer being used and all of its
153identifiers have been freed, the caller should call the
154.Fn id_space_destroy
155function to destroy the id space
156.Fa idspace .
157.Pp
158All three of these functions,
159.Fn id_space_create ,
160.Fn id_space_extend ,
161and
162.Fn id_space_destroy
163may block.
164They should only be called from a context where it's safe for it to block.
165This is equivalent to performing a blocking memory allocation.
166.Ss Allocating Identifiers
167Once an id space has been created with the
168.Fn id_space_create
169function, identifiers can be allocated from the space.
170There are three different strategies for allocating an identifier:
171.Bl -enum
172.It
173Allocating an identifier using the standard algorithm that attempts to
174use the next identifier first.
175.It
176Allocating an identifier using a first fit algorithm.
177These are functions with
178.Em ff
179in the name.
180Using this will tend to keep the allocated id space more compressed.
181.It
182Allocating a specific id.
183.El
184.Pp
185In addition, identifiers can be allocated in both a blocking and
186non-blocking fashion.
187When functions with the
188.Sy _nosleep
189prefix are used, they are non-blocking.
190If no identifier is available, they will return an error.
191.Pp
192The
193.Fn id_alloc
194function will allocate the next identifier.
195The
196.Fn id_alloc_nosleep
197function uses the same algorithm as
198.Fn id_alloc ,
199but will fail rather than block.
200.Pp
201The
202.Fn id_allocff
203function will allocate the first available identifier.
204The
205.Fn id_allocff_nosleep
206function uses the same algorithm as
207.Fn id_allocff ,
208but will fail rather than block.
209.Pp
210The
211.Fn id_alloc_specific_nosleep
212function attempts to allocate the specific identifier
213.Fa id
214from the specified identifier space.
215If
216.Fa id
217has already been allocated, then the function will fail.
218.Ss Freeing Identifiers
219Every allocated identifier must eventually be freed and returned to the
220identifier space.
221To free an identifier, use the
222.Fn id_free
223function, specifying the identifier in
224.Fa id
225and the identifier space it came from in
226.Fa id_space .
227It is a programmer error to call the
228.Fn id_free
229function on an identifier that has not been allocated.
230.Sh CONTEXT
231All of these functions may be called in
232.Sy user
233or
234.Sy kernel
235context.
236The
237.Fn id_alloc_nosleep ,
238.Fn id_allocff_nosleep ,
239and
240.Fn id_alloc_specific_nosleep
241functions may be called in
242.Sy interrupt
243context.
244.Sh RETURN VALUES
245Upon successful completion, the
246.Fn id_space_create
247function returns a pointer to an identifier space.
248Otherwise,
249.Dv NULL
250is returned to indicate that the identifier space could not be created.
251.Pp
252The
253.Fn id_alloc
254and
255.Fn id_allocff
256functions always return an identifier that's in the range of the
257specified identifier space.
258.Pp
259Upon successful completion, the
260.Fn id_alloc_nosleep ,
261.Fn id_allocff_nosleep ,
262and
263.Fn id_alloc_specific_nosleep
264functions will return an identifier that's in the range of the specified
265identifier space.
266Otherwise,
267.Sy -1
268is returned to indicate that no identifier was available, or in the case
269of the
270.Fn id_alloc_specific_nosleep
271function, that the specified identifier was not available.
272.Sh SEE ALSO
273.Xr kmem_alloc 9F ,
274.Xr rmallocmap 9F
275