xref: /freebsd/share/man/man9/bus_space.9 (revision b0d29bc47dba79f6f38e67eabadfb4b32ffd9390)
1.\" $NetBSD: bus_space.9,v 1.9 1999/03/06 22:09:29 mycroft Exp $
2.\"
3.\" Copyright (c) 2005 M. Warner Losh <imp@FreeBSD.org>
4.\"
5.\" Redistribution and use in source and binary forms, with or without
6.\" modification, are permitted provided that the following conditions
7.\" are met:
8.\" 1. Redistributions of source code must retain the above copyright
9.\"    notice, this list of conditions and the following disclaimer.
10.\" 2. Redistributions in binary form must reproduce the above copyright
11.\"    notice, this list of conditions and the following disclaimer in the
12.\"    documentation and/or other materials provided with the distribution.
13.\" THIS SOFTWARE IS PROVIDED BY THE NETBSD FOUNDATION, INC. AND CONTRIBUTORS
14.\" ``AS IS'' AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED
15.\" TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR
16.\" PURPOSE ARE DISCLAIMED.  IN NO EVENT SHALL THE FOUNDATION OR CONTRIBUTORS
17.\" BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR
18.\" CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF
19.\" SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS
20.\" INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN
21.\" CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE)
22.\" ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE
23.\" POSSIBILITY OF SUCH DAMAGE.
24.\"
25.\"
26.\" Copyright (c) 1997 The NetBSD Foundation, Inc.
27.\" All rights reserved.
28.\"
29.\" This code is derived from software contributed to The NetBSD Foundation
30.\" by Christopher G. Demetriou.
31.\"
32.\" Redistribution and use in source and binary forms, with or without
33.\" modification, are permitted provided that the following conditions
34.\" are met:
35.\" 1. Redistributions of source code must retain the above copyright
36.\"    notice, this list of conditions and the following disclaimer.
37.\" 2. Redistributions in binary form must reproduce the above copyright
38.\"    notice, this list of conditions and the following disclaimer in the
39.\"    documentation and/or other materials provided with the distribution.
40.\"
41.\" THIS SOFTWARE IS PROVIDED BY THE NETBSD FOUNDATION, INC. AND CONTRIBUTORS
42.\" ``AS IS'' AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED
43.\" TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR
44.\" PURPOSE ARE DISCLAIMED.  IN NO EVENT SHALL THE FOUNDATION OR CONTRIBUTORS
45.\" BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR
46.\" CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF
47.\" SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS
48.\" INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN
49.\" CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE)
50.\" ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE
51.\" POSSIBILITY OF SUCH DAMAGE.
52.\"
53.\" $FreeBSD$
54.\"
55.Dd January 15, 2017
56.Dt BUS_SPACE 9
57.Os
58.Sh NAME
59.Nm bus_space ,
60.Nm bus_space_barrier ,
61.Nm bus_space_copy_region_1 ,
62.Nm bus_space_copy_region_2 ,
63.Nm bus_space_copy_region_4 ,
64.Nm bus_space_copy_region_8 ,
65.Nm bus_space_copy_region_stream_1 ,
66.Nm bus_space_copy_region_stream_2 ,
67.Nm bus_space_copy_region_stream_4 ,
68.Nm bus_space_copy_region_stream_8 ,
69.Nm bus_space_free ,
70.Nm bus_space_map ,
71.Nm bus_space_read_1 ,
72.Nm bus_space_read_2 ,
73.Nm bus_space_read_4 ,
74.Nm bus_space_read_8 ,
75.Nm bus_space_read_multi_1 ,
76.Nm bus_space_read_multi_2 ,
77.Nm bus_space_read_multi_4 ,
78.Nm bus_space_read_multi_8 ,
79.Nm bus_space_read_multi_stream_1 ,
80.Nm bus_space_read_multi_stream_2 ,
81.Nm bus_space_read_multi_stream_4 ,
82.Nm bus_space_read_multi_stream_8 ,
83.Nm bus_space_read_region_1 ,
84.Nm bus_space_read_region_2 ,
85.Nm bus_space_read_region_4 ,
86.Nm bus_space_read_region_8 ,
87.Nm bus_space_read_region_stream_1 ,
88.Nm bus_space_read_region_stream_2 ,
89.Nm bus_space_read_region_stream_4 ,
90.Nm bus_space_read_region_stream_8 ,
91.Nm bus_space_read_stream_1 ,
92.Nm bus_space_read_stream_2 ,
93.Nm bus_space_read_stream_4 ,
94.Nm bus_space_read_stream_8 ,
95.Nm bus_space_set_multi_1 ,
96.Nm bus_space_set_multi_2 ,
97.Nm bus_space_set_multi_4 ,
98.Nm bus_space_set_multi_8 ,
99.Nm bus_space_set_multi_stream_1 ,
100.Nm bus_space_set_multi_stream_2 ,
101.Nm bus_space_set_multi_stream_4 ,
102.Nm bus_space_set_multi_stream_8 ,
103.Nm bus_space_set_region_1 ,
104.Nm bus_space_set_region_2 ,
105.Nm bus_space_set_region_4 ,
106.Nm bus_space_set_region_8 ,
107.Nm bus_space_set_region_stream_1 ,
108.Nm bus_space_set_region_stream_2 ,
109.Nm bus_space_set_region_stream_4 ,
110.Nm bus_space_set_region_stream_8 ,
111.Nm bus_space_subregion ,
112.Nm bus_space_unmap ,
113.Nm bus_space_write_1 ,
114.Nm bus_space_write_2 ,
115.Nm bus_space_write_4 ,
116.Nm bus_space_write_8 ,
117.Nm bus_space_write_multi_1 ,
118.Nm bus_space_write_multi_2 ,
119.Nm bus_space_write_multi_4 ,
120.Nm bus_space_write_multi_8 ,
121.Nm bus_space_write_multi_stream_1 ,
122.Nm bus_space_write_multi_stream_2 ,
123.Nm bus_space_write_multi_stream_4 ,
124.Nm bus_space_write_multi_stream_8 ,
125.Nm bus_space_write_region_1 ,
126.Nm bus_space_write_region_2 ,
127.Nm bus_space_write_region_4 ,
128.Nm bus_space_write_region_8 ,
129.Nm bus_space_write_region_stream_1 ,
130.Nm bus_space_write_region_stream_2 ,
131.Nm bus_space_write_region_stream_4 ,
132.Nm bus_space_write_region_stream_8 ,
133.Nm bus_space_write_stream_1 ,
134.Nm bus_space_write_stream_2 ,
135.Nm bus_space_write_stream_4 ,
136.Nm bus_space_write_stream_8
137.Nd "bus space manipulation functions"
138.Sh SYNOPSIS
139.In machine/bus.h
140.Ft int
141.Fo bus_space_map
142.Fa "bus_space_tag_t space" "bus_addr_t address"
143.Fa "bus_size_t size" "int flags" "bus_space_handle_t *handlep"
144.Fc
145.Ft void
146.Fo bus_space_unmap
147.Fa "bus_space_tag_t space" "bus_space_handle_t handle" "bus_size_t size"
148.Fc
149.Ft int
150.Fo bus_space_subregion
151.Fa "bus_space_tag_t space" "bus_space_handle_t handle"
152.Fa "bus_size_t offset" "bus_size_t size" "bus_space_handle_t *nhandlep"
153.Fc
154.Ft int
155.Fo bus_space_alloc
156.Fa "bus_space_tag_t space" "bus_addr_t reg_start" "bus_addr_t reg_end"
157.Fa "bus_size_t size" "bus_size_t alignment" "bus_size_t boundary"
158.Fa "int flags" "bus_addr_t *addrp" "bus_space_handle_t *handlep"
159.Fc
160.Ft void
161.Fo bus_space_free
162.Fa "bus_space_tag_t space" "bus_space_handle_t handle" "bus_size_t size"
163.Fc
164.Ft uint8_t
165.Fo bus_space_read_1
166.Fa "bus_space_tag_t space" "bus_space_handle_t handle" "bus_size_t offset"
167.Fc
168.Ft uint16_t
169.Fo bus_space_read_2
170.Fa "bus_space_tag_t space" "bus_space_handle_t handle" "bus_size_t offset"
171.Fc
172.Ft uint32_t
173.Fo bus_space_read_4
174.Fa "bus_space_tag_t space" "bus_space_handle_t handle" "bus_size_t offset"
175.Fc
176.Ft uint64_t
177.Fo bus_space_read_8
178.Fa "bus_space_tag_t space" "bus_space_handle_t handle" "bus_size_t offset"
179.Fc
180.Ft uint8_t
181.Fo bus_space_read_stream_1
182.Fa "bus_space_tag_t space" "bus_space_handle_t handle" "bus_size_t offset"
183.Fc
184.Ft uint16_t
185.Fo bus_space_read_stream_2
186.Fa "bus_space_tag_t space" "bus_space_handle_t handle" "bus_size_t offset"
187.Fc
188.Ft uint32_t
189.Fo bus_space_read_stream_4
190.Fa "bus_space_tag_t space" "bus_space_handle_t handle" "bus_size_t offset"
191.Fc
192.Ft uint64_t
193.Fo bus_space_read_stream_8
194.Fa "bus_space_tag_t space" "bus_space_handle_t handle" "bus_size_t offset"
195.Fc
196.Ft void
197.Fo bus_space_write_1
198.Fa "bus_space_tag_t space" "bus_space_handle_t handle"
199.Fa "bus_size_t offset" "uint8_t value"
200.Fc
201.Ft void
202.Fo bus_space_write_2
203.Fa "bus_space_tag_t space" "bus_space_handle_t handle"
204.Fa "bus_size_t offset" "uint16_t value"
205.Fc
206.Ft void
207.Fo bus_space_write_4
208.Fa "bus_space_tag_t space" "bus_space_handle_t handle"
209.Fa "bus_size_t offset" "uint32_t value"
210.Fc
211.Ft void
212.Fo bus_space_write_8
213.Fa "bus_space_tag_t space" "bus_space_handle_t handle"
214.Fa "bus_size_t offset" "uint64_t value"
215.Fc
216.Ft void
217.Fo bus_space_write_stream_1
218.Fa "bus_space_tag_t space" "bus_space_handle_t handle"
219.Fa "bus_size_t offset" "uint8_t value"
220.Fc
221.Ft void
222.Fo bus_space_write_stream_2
223.Fa "bus_space_tag_t space" "bus_space_handle_t handle"
224.Fa "bus_size_t offset" "uint16_t value"
225.Fc
226.Ft void
227.Fo bus_space_write_stream_4
228.Fa "bus_space_tag_t space" "bus_space_handle_t handle"
229.Fa "bus_size_t offset" "uint32_t value"
230.Fc
231.Ft void
232.Fo bus_space_write_stream_8
233.Fa "bus_space_tag_t space" "bus_space_handle_t handle"
234.Fa "bus_size_t offset" "uint64_t value"
235.Fc
236.Ft void
237.Fo bus_space_barrier
238.Fa "bus_space_tag_t space" "bus_space_handle_t handle"
239.Fa "bus_size_t offset" "bus_size_t length" "int flags"
240.Fc
241.Ft void
242.Fo bus_space_read_region_1
243.Fa "bus_space_tag_t space"
244.Fa "bus_space_handle_t handle" "bus_size_t offset" "uint8_t *datap"
245.Fa "bus_size_t count"
246.Fc
247.Ft void
248.Fo bus_space_read_region_2
249.Fa "bus_space_tag_t space"
250.Fa "bus_space_handle_t handle" "bus_size_t offset" "uint16_t *datap"
251.Fa "bus_size_t count"
252.Fc
253.Ft void
254.Fo bus_space_read_region_4
255.Fa "bus_space_tag_t space"
256.Fa "bus_space_handle_t handle" "bus_size_t offset" "uint32_t *datap"
257.Fa "bus_size_t count"
258.Fc
259.Ft void
260.Fo bus_space_read_region_8
261.Fa "bus_space_tag_t space"
262.Fa "bus_space_handle_t handle" "bus_size_t offset" "uint64_t *datap"
263.Fa "bus_size_t count"
264.Fc
265.Ft void
266.Fo bus_space_read_region_stream_1
267.Fa "bus_space_tag_t space"
268.Fa "bus_space_handle_t handle" "bus_size_t offset" "uint8_t *datap"
269.Fa "bus_size_t count"
270.Fc
271.Ft void
272.Fo bus_space_read_region_stream_2
273.Fa "bus_space_tag_t space"
274.Fa "bus_space_handle_t handle" "bus_size_t offset" "uint16_t *datap"
275.Fa "bus_size_t count"
276.Fc
277.Ft void
278.Fo bus_space_read_region_stream_4
279.Fa "bus_space_tag_t space"
280.Fa "bus_space_handle_t handle" "bus_size_t offset" "uint32_t *datap"
281.Fa "bus_size_t count"
282.Fc
283.Ft void
284.Fo bus_space_read_region_stream_8
285.Fa "bus_space_tag_t space"
286.Fa "bus_space_handle_t handle" "bus_size_t offset" "uint64_t *datap"
287.Fa "bus_size_t count"
288.Fc
289.Ft void
290.Fo bus_space_write_region_1
291.Fa "bus_space_tag_t space"
292.Fa "bus_space_handle_t handle" "bus_size_t offset" "uint8_t *datap"
293.Fa "bus_size_t count"
294.Fc
295.Ft void
296.Fo bus_space_write_region_2
297.Fa "bus_space_tag_t space"
298.Fa "bus_space_handle_t handle" "bus_size_t offset" "uint16_t *datap"
299.Fa "bus_size_t count"
300.Fc
301.Ft void
302.Fo bus_space_write_region_4
303.Fa "bus_space_tag_t space"
304.Fa "bus_space_handle_t handle" "bus_size_t offset" "uint32_t *datap"
305.Fa "bus_size_t count"
306.Fc
307.Ft void
308.Fo bus_space_write_region_8
309.Fa "bus_space_tag_t space"
310.Fa "bus_space_handle_t handle" "bus_size_t offset" "uint64_t *datap"
311.Fa "bus_size_t count"
312.Fc
313.Ft void
314.Fo bus_space_write_region_stream_1
315.Fa "bus_space_tag_t space"
316.Fa "bus_space_handle_t handle" "bus_size_t offset" "uint8_t *datap"
317.Fa "bus_size_t count"
318.Fc
319.Ft void
320.Fo bus_space_write_region_stream_2
321.Fa "bus_space_tag_t space"
322.Fa "bus_space_handle_t handle" "bus_size_t offset" "uint16_t *datap"
323.Fa "bus_size_t count"
324.Fc
325.Ft void
326.Fo bus_space_write_region_stream_4
327.Fa "bus_space_tag_t space"
328.Fa "bus_space_handle_t handle" "bus_size_t offset" "uint32_t *datap"
329.Fa "bus_size_t count"
330.Fc
331.Ft void
332.Fo bus_space_write_region_stream_8
333.Fa "bus_space_tag_t space"
334.Fa "bus_space_handle_t handle" "bus_size_t offset" "uint64_t *datap"
335.Fa "bus_size_t count"
336.Fc
337.Ft void
338.Fo bus_space_copy_region_1
339.Fa "bus_space_tag_t space"
340.Fa "bus_space_handle_t srchandle" "bus_size_t srcoffset"
341.Fa "bus_space_handle_t dsthandle" "bus_size_t dstoffset" "bus_size_t count"
342.Fc
343.Ft void
344.Fo bus_space_copy_region_2
345.Fa "bus_space_tag_t space"
346.Fa "bus_space_handle_t srchandle" "bus_size_t srcoffset"
347.Fa "bus_space_handle_t dsthandle" "bus_size_t dstoffset" "bus_size_t count"
348.Fc
349.Ft void
350.Fo bus_space_copy_region_4
351.Fa "bus_space_tag_t space"
352.Fa "bus_space_handle_t srchandle" "bus_size_t srcoffset"
353.Fa "bus_space_handle_t dsthandle" "bus_size_t dstoffset" "bus_size_t count"
354.Fc
355.Ft void
356.Fo bus_space_copy_region_8
357.Fa "bus_space_tag_t space"
358.Fa "bus_space_handle_t srchandle" "bus_size_t srcoffset"
359.Fa "bus_space_handle_t dsthandle" "bus_size_t dstoffset" "bus_size_t count"
360.Fc
361.Ft void
362.Fo bus_space_copy_region_stream_1
363.Fa "bus_space_tag_t space"
364.Fa "bus_space_handle_t srchandle" "bus_size_t srcoffset"
365.Fa "bus_space_handle_t dsthandle" "bus_size_t dstoffset" "bus_size_t count"
366.Fc
367.Ft void
368.Fo bus_space_copy_region_stream_2
369.Fa "bus_space_tag_t space"
370.Fa "bus_space_handle_t srchandle" "bus_size_t srcoffset"
371.Fa "bus_space_handle_t dsthandle" "bus_size_t dstoffset" "bus_size_t count"
372.Fc
373.Ft void
374.Fo bus_space_copy_region_stream_4
375.Fa "bus_space_tag_t space"
376.Fa "bus_space_handle_t srchandle" "bus_size_t srcoffset"
377.Fa "bus_space_handle_t dsthandle" "bus_size_t dstoffset" "bus_size_t count"
378.Fc
379.Ft void
380.Fo bus_space_copy_region_stream_8
381.Fa "bus_space_tag_t space"
382.Fa "bus_space_handle_t srchandle" "bus_size_t srcoffset"
383.Fa "bus_space_handle_t dsthandle" "bus_size_t dstoffset" "bus_size_t count"
384.Fc
385.Ft void
386.Fo bus_space_set_region_1
387.Fa "bus_space_tag_t space"
388.Fa "bus_space_handle_t handle" "bus_size_t offset" "uint8_t value"
389.Fa "bus_size_t count"
390.Fc
391.Ft void
392.Fo bus_space_set_region_2
393.Fa "bus_space_tag_t space"
394.Fa "bus_space_handle_t handle" "bus_size_t offset" "uint16_t value"
395.Fa "bus_size_t count"
396.Fc
397.Ft void
398.Fo bus_space_set_region_4
399.Fa "bus_space_tag_t space"
400.Fa "bus_space_handle_t handle" "bus_size_t offset" "uint32_t value"
401.Fa "bus_size_t count"
402.Fc
403.Ft void
404.Fo bus_space_set_region_8
405.Fa "bus_space_tag_t space"
406.Fa "bus_space_handle_t handle" "bus_size_t offset" "uint64_t value"
407.Fa "bus_size_t count"
408.Fc
409.Ft void
410.Fo bus_space_set_region_stream_1
411.Fa "bus_space_tag_t space"
412.Fa "bus_space_handle_t handle" "bus_size_t offset" "uint8_t value"
413.Fa "bus_size_t count"
414.Fc
415.Ft void
416.Fo bus_space_set_region_stream_2
417.Fa "bus_space_tag_t space"
418.Fa "bus_space_handle_t handle" "bus_size_t offset" "uint16_t value"
419.Fa "bus_size_t count"
420.Fc
421.Ft void
422.Fo bus_space_set_region_stream_4
423.Fa "bus_space_tag_t space"
424.Fa "bus_space_handle_t handle" "bus_size_t offset" "uint32_t value"
425.Fa "bus_size_t count"
426.Fc
427.Ft void
428.Fo bus_space_set_region_stream_8
429.Fa "bus_space_tag_t space"
430.Fa "bus_space_handle_t handle" "bus_size_t offset" "uint64_t value"
431.Fa "bus_size_t count"
432.Fc
433.Ft void
434.Fo bus_space_read_multi_1
435.Fa "bus_space_tag_t space"
436.Fa "bus_space_handle_t handle" "bus_size_t offset" "uint8_t *datap"
437.Fa "bus_size_t count"
438.Fc
439.Ft void
440.Fo bus_space_read_multi_2
441.Fa "bus_space_tag_t space"
442.Fa "bus_space_handle_t handle" "bus_size_t offset" "uint16_t *datap"
443.Fa "bus_size_t count"
444.Fc
445.Ft void
446.Fo bus_space_read_multi_4
447.Fa "bus_space_tag_t space"
448.Fa "bus_space_handle_t handle" "bus_size_t offset" "uint32_t *datap"
449.Fa "bus_size_t count"
450.Fc
451.Ft void
452.Fo bus_space_read_multi_8
453.Fa "bus_space_tag_t space"
454.Fa "bus_space_handle_t handle" "bus_size_t offset" "uint64_t *datap"
455.Fa "bus_size_t count"
456.Fc
457.Ft void
458.Fo bus_space_read_multi_stream_1
459.Fa "bus_space_tag_t space"
460.Fa "bus_space_handle_t handle" "bus_size_t offset" "uint8_t *datap"
461.Fa "bus_size_t count"
462.Fc
463.Ft void
464.Fo bus_space_read_multi_stream_2
465.Fa "bus_space_tag_t space"
466.Fa "bus_space_handle_t handle" "bus_size_t offset" "uint16_t *datap"
467.Fa "bus_size_t count"
468.Fc
469.Ft void
470.Fo bus_space_read_multi_stream_4
471.Fa "bus_space_tag_t space"
472.Fa "bus_space_handle_t handle" "bus_size_t offset" "uint32_t *datap"
473.Fa "bus_size_t count"
474.Fc
475.Ft void
476.Fo bus_space_read_multi_stream_8
477.Fa "bus_space_tag_t space"
478.Fa "bus_space_handle_t handle" "bus_size_t offset" "uint64_t *datap"
479.Fa "bus_size_t count"
480.Fc
481.Ft void
482.Fo bus_space_write_multi_1
483.Fa "bus_space_tag_t space"
484.Fa "bus_space_handle_t handle" "bus_size_t offset" "uint8_t *datap"
485.Fa "bus_size_t count"
486.Fc
487.Ft void
488.Fo bus_space_write_multi_2
489.Fa "bus_space_tag_t space"
490.Fa "bus_space_handle_t handle" "bus_size_t offset" "uint16_t *datap"
491.Fa "bus_size_t count"
492.Fc
493.Ft void
494.Fo bus_space_write_multi_4
495.Fa "bus_space_tag_t space"
496.Fa "bus_space_handle_t handle" "bus_size_t offset" "uint32_t *datap"
497.Fa "bus_size_t count"
498.Fc
499.Ft void
500.Fo bus_space_write_multi_8
501.Fa "bus_space_tag_t space"
502.Fa "bus_space_handle_t handle" "bus_size_t offset" "uint64_t *datap"
503.Fa "bus_size_t count"
504.Fc
505.Ft void
506.Fo bus_space_write_multi_stream_1
507.Fa "bus_space_tag_t space"
508.Fa "bus_space_handle_t handle" "bus_size_t offset" "uint8_t *datap"
509.Fa "bus_size_t count"
510.Fc
511.Ft void
512.Fo bus_space_write_multi_stream_2
513.Fa "bus_space_tag_t space"
514.Fa "bus_space_handle_t handle" "bus_size_t offset" "uint16_t *datap"
515.Fa "bus_size_t count"
516.Fc
517.Ft void
518.Fo bus_space_write_multi_stream_4
519.Fa "bus_space_tag_t space"
520.Fa "bus_space_handle_t handle" "bus_size_t offset" "uint32_t *datap"
521.Fa "bus_size_t count"
522.Fc
523.Ft void
524.Fo bus_space_write_multi_stream_8
525.Fa "bus_space_tag_t space"
526.Fa "bus_space_handle_t handle" "bus_size_t offset" "uint64_t *datap"
527.Fa "bus_size_t count"
528.Fc
529.Ft void
530.Fo bus_space_set_multi_1
531.Fa "bus_space_tag_t space"
532.Fa "bus_space_handle_t handle" "bus_size_t offset" "uint8_t value"
533.Fa "bus_size_t count"
534.Fc
535.Ft void
536.Fo bus_space_set_multi_2
537.Fa "bus_space_tag_t space"
538.Fa "bus_space_handle_t handle" "bus_size_t offset" "uint16_t value"
539.Fa "bus_size_t count"
540.Fc
541.Ft void
542.Fo bus_space_set_multi_4
543.Fa "bus_space_tag_t space"
544.Fa "bus_space_handle_t handle" "bus_size_t offset" "uint32_t value"
545.Fa "bus_size_t count"
546.Fc
547.Ft void
548.Fo bus_space_set_multi_8
549.Fa "bus_space_tag_t space"
550.Fa "bus_space_handle_t handle" "bus_size_t offset" "uint64_t value"
551.Fa "bus_size_t count"
552.Fc
553.Ft void
554.Fo bus_space_set_multi_stream_1
555.Fa "bus_space_tag_t space"
556.Fa "bus_space_handle_t handle" "bus_size_t offset" "uint8_t value"
557.Fa "bus_size_t count"
558.Fc
559.Ft void
560.Fo bus_space_set_multi_stream_2
561.Fa "bus_space_tag_t space"
562.Fa "bus_space_handle_t handle" "bus_size_t offset" "uint16_t value"
563.Fa "bus_size_t count"
564.Fc
565.Ft void
566.Fo bus_space_set_multi_stream_4
567.Fa "bus_space_tag_t space"
568.Fa "bus_space_handle_t handle" "bus_size_t offset" "uint32_t value"
569.Fa "bus_size_t count"
570.Fc
571.Ft void
572.Fo bus_space_set_multi_stream_8
573.Fa "bus_space_tag_t space"
574.Fa "bus_space_handle_t handle" "bus_size_t offset" "uint64_t value"
575.Fa "bus_size_t count"
576.Fc
577.Sh DESCRIPTION
578The
579.Nm
580functions exist to allow device drivers
581machine-independent access to bus memory and register areas.
582All of the
583functions and types described in this document can be used by including
584the
585.In machine/bus.h
586header file.
587.Pp
588Many common devices are used on multiple architectures, but are accessed
589differently on each because of architectural constraints.
590For instance, a device which is mapped in one system's I/O space may be
591mapped in memory space on a second system.
592On a third system, architectural
593limitations might change the way registers need to be accessed (e.g.\&
594creating a non-linear register space).
595In some cases, a single
596driver may need to access the same type of device in multiple ways in a
597single system or architecture.
598The goal of the
599.Nm
600functions is to allow a single driver source file to manipulate a set
601of devices on different system architectures, and to allow a single driver
602object file to manipulate a set of devices on multiple bus types on a
603single architecture.
604.Pp
605Not all buses have to implement all functions described in this
606document, though that is encouraged if the operations are logically
607supported by the bus.
608Unimplemented functions should cause
609compile-time errors if possible.
610.Pp
611All of the interface definitions described in this document are shown as
612function prototypes and discussed as if they were required to be
613functions.
614Implementations are encouraged to implement prototyped
615(type-checked) versions of these interfaces, but may implement them as
616macros if appropriate.
617Machine-dependent types, variables, and functions
618should be marked clearly in
619.In machine/bus.h
620to avoid confusion with the
621machine-independent types and functions, and, if possible, should be
622given names which make the machine-dependence clear.
623.Sh CONCEPTS AND GUIDELINES
624Bus spaces are described by bus space tags, which can be created only by
625machine-dependent code.
626A given machine may have several different types
627of bus space (e.g.\& memory space and I/O space), and thus may provide
628multiple different bus space tags.
629Individual buses or devices on a machine may use more than one bus space
630tag.
631For instance, ISA devices are
632given an ISA memory space tag and an ISA I/O space tag.
633Architectures
634may have several different tags which represent the same type of
635space, for instance because of multiple different host bus interface
636chipsets.
637.Pp
638A range in bus space is described by a bus address and a bus size.
639The
640bus address describes the start of the range in bus space.
641The bus
642size describes the size of the range in bytes.
643Buses which are not byte
644addressable may require use of bus space ranges with appropriately
645aligned addresses and properly rounded sizes.
646.Pp
647Access to regions of bus space is facilitated by use of bus space handles,
648which are usually created by mapping a specific range of a bus space.
649Handles may also be created by allocating
650and mapping a range of bus space, the actual location of which is picked
651by the implementation within bounds specified by the caller of the
652allocation function.
653.Pp
654All of the bus space access functions require one bus space tag
655argument, at least one handle argument, and at least one offset argument
656(a bus size).
657The bus space tag specifies the space, each handle specifies a region in
658the space, and each offset specifies the offset into the region of the
659actual location(s) to be accessed.
660Offsets are given in bytes, though buses
661may impose alignment constraints.
662The offset used to access data
663relative to a given handle must be such that all of the data being
664accessed is in the mapped region that the handle describes.
665Trying to
666access data outside that region is an error.
667.Pp
668Because some architectures' memory systems use buffering to improve
669memory and device access performance, there is a mechanism which can be
670used to create
671.Dq barriers
672in the bus space read and write stream.
673There
674are three types of barriers: read, write, and read/write.
675All reads
676started to the region before a read barrier must complete before any reads
677after the read barrier are started.
678(The analogous requirement is true for
679write barriers.)
680Read/write barriers force all reads and writes started
681before the barrier to complete before any reads or writes after the
682barrier are started.
683Correctly-written drivers will include all
684appropriate barriers, and assume only the read/write ordering imposed by
685the barrier operations.
686.Pp
687People trying to write portable drivers with the
688.Nm
689functions should
690try to make minimal assumptions about what the system allows.
691In particular,
692they should expect that the system requires bus space addresses being
693accessed to be naturally aligned (i.e., base address of handle added to
694offset is a multiple of the access size), and that the system does
695alignment checking on pointers (i.e., pointer to objects being read and
696written must point to properly-aligned data).
697.Pp
698The descriptions of the
699.Nm
700functions given below all assume that
701they are called with proper arguments.
702If called with invalid arguments
703or arguments that are out of range (e.g.\& trying to access data outside of
704the region mapped when a given handle was created), undefined behaviour
705results.
706In that case, they may cause the
707system to halt, either intentionally (via panic) or unintentionally (by
708causing a fatal trap of by some other means) or may cause improper
709operation which is not immediately fatal.
710Functions which return
711.Ft void
712or which return data read from bus space (i.e., functions which
713do not obviously return an error code) do not fail.
714They could only fail
715if given invalid arguments, and in that case their behaviour is undefined.
716Functions which take a count of bytes have undefined results if the specified
717.Fa count
718is zero.
719.Sh TYPES
720Several types are defined in
721.In machine/bus.h
722to facilitate use of the
723.Nm
724functions by drivers.
725.Ss Vt bus_addr_t
726The
727.Vt bus_addr_t
728type is used to describe bus addresses.
729It must be an
730unsigned integral type
731capable of holding the largest bus address usable by the architecture.
732This
733type is primarily used when mapping and unmapping bus space.
734.Ss Vt bus_size_t
735The
736.Vt bus_size_t
737type is used to describe sizes of ranges in bus space.
738It must be an
739unsigned integral type capable of holding the size of the largest bus
740address range usable on the architecture.
741This type is used by virtually all
742of the
743.Nm
744functions, describing sizes when mapping regions and
745offsets into regions when performing space access operations.
746.Ss Vt bus_space_tag_t
747The
748.Vt bus_space_tag_t
749type is used to describe a particular bus space on a machine.
750Its
751contents are machine-dependent and should be considered opaque by
752machine-independent code.
753This type is used by all
754.Nm
755functions to name the space on which they are operating.
756.Ss Vt bus_space_handle_t
757The
758.Vt bus_space_handle_t
759type is used to describe a mapping of a range of bus space.
760Its
761contents are machine-dependent and should be considered opaque by
762machine-independent code.
763This type is used when performing bus space
764access operations.
765.Sh MAPPING AND UNMAPPING BUS SPACE
766This section is specific to the
767.Nx
768version of these functions and may or may not apply to the
769.Fx
770version.
771.Pp
772Bus space must be mapped before it can be used, and should be
773unmapped when it is no longer needed.
774The
775.Fn bus_space_map
776and
777.Fn bus_space_unmap
778functions provide these capabilities.
779.Pp
780Some drivers need to be able to pass a subregion of already-mapped bus
781space to another driver or module within a driver.
782The
783.Fn bus_space_subregion
784function allows such subregions to be created.
785.Ss Fn bus_space_map space address size flags handlep
786The
787.Fn bus_space_map
788function maps the region of bus space named by the
789.Fa space , address ,
790and
791.Fa size
792arguments.
793If successful, it returns zero
794and fills in the bus space handle pointed to by
795.Fa handlep
796with the handle
797that can be used to access the mapped region.
798If unsuccessful,
799it will return non-zero and leave the bus space handle pointed
800to by
801.Fa handlep
802in an undefined state.
803.Pp
804The
805.Fa flags
806argument controls how the space is to be mapped.
807Supported flags include:
808.Bl -tag -width ".Dv BUS_SPACE_MAP_CACHEABLE"
809.It Dv BUS_SPACE_MAP_CACHEABLE
810Try to map the space so that accesses can be cached and/or
811prefetched by the system.
812If this flag is not specified, the
813implementation should map the space so that it will not be cached or
814prefetched.
815.Pp
816This flag must have a value of 1 on all implementations for backward
817compatibility.
818.It Dv BUS_SPACE_MAP_LINEAR
819Try to map the space so that its contents can be accessed linearly via
820normal memory access methods (e.g.\& pointer dereferencing and structure
821accesses).
822This is useful when software wants to do direct access to a memory
823device, e.g.\& a frame buffer.
824If this flag is specified and linear
825mapping is not possible, the
826.Fn bus_space_map
827call should fail.
828If this
829flag is not specified, the system may map the space in whatever way is
830most convenient.
831.El
832.Pp
833Not all combinations of flags make sense or are supported with all
834spaces.
835For instance,
836.Dv BUS_SPACE_MAP_CACHEABLE
837may be meaningless when
838used on many systems' I/O port spaces, and on some systems
839.Dv BUS_SPACE_MAP_LINEAR
840without
841.Dv BUS_SPACE_MAP_CACHEABLE
842may never work.
843When the system hardware or firmware provides hints as to how spaces should be
844mapped (e.g.\& the PCI memory mapping registers'
845.Dq prefetchable
846bit), those
847hints should be followed for maximum compatibility.
848On some systems,
849requesting a mapping that cannot be satisfied (e.g.\& requesting a
850non-cacheable mapping when the system can only provide a cacheable one)
851will cause the request to fail.
852.Pp
853Some implementations may keep track of use of bus space for some or all
854bus spaces and refuse to allow duplicate allocations.
855This is encouraged
856for bus spaces which have no notion of slot-specific space addressing,
857such as ISA, and for spaces which coexist with those spaces
858(e.g.\& PCI memory and I/O spaces co-existing with ISA memory and
859I/O spaces).
860.Pp
861Mapped regions may contain areas for which there is no device on the
862bus.
863If space in those areas is accessed, the results are
864bus-dependent.
865.Ss Fn bus_space_unmap space handle size
866The
867.Fn bus_space_unmap
868function unmaps a region of bus space mapped with
869.Fn bus_space_map .
870When unmapping a region, the
871.Fa size
872specified should be
873the same as the size given to
874.Fn bus_space_map
875when mapping that region.
876.Pp
877After
878.Fn bus_space_unmap
879is called on a handle, that handle is no longer
880valid.
881(If copies were made of the handle they are no longer valid,
882either.)
883.Pp
884This function will never fail.
885If it would fail (e.g.\& because of an
886argument error), that indicates a software bug which should cause a
887panic.
888In that case,
889.Fn bus_space_unmap
890will never return.
891.Ss Fn bus_space_subregion space handle offset size nhandlep
892The
893.Fn bus_space_subregion
894function is a convenience function which makes a
895new handle to some subregion of an already-mapped region of bus space.
896The subregion described by the new handle starts at byte offset
897.Fa offset
898into the region described by
899.Fa handle ,
900with the size give by
901.Fa size ,
902and must be wholly contained within the original region.
903.Pp
904If successful,
905.Fn bus_space_subregion
906returns zero and fills in the bus
907space handle pointed to by
908.Fa nhandlep .
909If unsuccessful, it returns non-zero and leaves the bus space handle
910pointed to by
911.Fa nhandlep
912in an
913undefined state.
914In either case, the handle described by
915.Fa handle
916remains valid and is unmodified.
917.Pp
918When done with a handle created by
919.Fn bus_space_subregion ,
920the handle should
921be thrown away.
922Under no circumstances should
923.Fn bus_space_unmap
924be used on the handle.
925Doing so may confuse any resource management
926being done on the space, and will result in undefined behaviour.
927When
928.Fn bus_space_unmap
929or
930.Fn bus_space_free
931is called on a handle, all subregions of that handle become invalid.
932.Sh ALLOCATING AND FREEING BUS SPACE
933This section is specific to the
934.Nx
935version of these functions and may or may not apply to the
936.Fx
937version.
938.Pp
939Some devices require or allow bus space to be allocated by the operating
940system for device use.
941When the devices no longer need the space, the
942operating system should free it for use by other devices.
943The
944.Fn bus_space_alloc
945and
946.Fn bus_space_free
947functions provide these capabilities.
948.Ss Fn bus_space_alloc space reg_start reg_end size alignment boundary \
949flags addrp handlep
950The
951.Fn bus_space_alloc
952function allocates and maps a region of bus space with the size given by
953.Fa size ,
954corresponding to the given constraints.
955If successful, it returns
956zero, fills in the bus address pointed to by
957.Fa addrp
958with the bus space address of the allocated region, and fills in
959the bus space handle pointed to by
960.Fa handlep
961with the handle that can be used to access that region.
962If unsuccessful, it returns non-zero and leaves the bus address pointed to by
963.Fa addrp
964and the bus space handle pointed to by
965.Fa handlep
966in an undefined state.
967.Pp
968Constraints on the allocation are given by the
969.Fa reg_start , reg_end , alignment ,
970and
971.Fa boundary
972parameters.
973The allocated region will start at or after
974.Fa reg_start
975and end before or at
976.Fa reg_end .
977The
978.Fa alignment
979constraint must be a power of two, and the allocated region will start at
980an address that is an even multiple of that power of two.
981The
982.Fa boundary
983constraint, if non-zero, ensures that the region is allocated so that
984.Fa "first address in region"
985/
986.Fa boundary
987has the same value as
988.Fa "last address in region"
989/
990.Fa boundary .
991If the constraints cannot be met,
992.Fn bus_space_alloc
993will fail.
994It is an error to specify a set of
995constraints that can never be met
996(for example,
997.Fa size
998greater than
999.Fa boundary ) .
1000.Pp
1001The
1002.Fa flags
1003parameter is the same as the like-named parameter to
1004.Fn bus_space_map ,
1005the same flag values should be used, and they have the
1006same meanings.
1007.Pp
1008Handles created by
1009.Fn bus_space_alloc
1010should only be freed with
1011.Fn bus_space_free .
1012Trying to use
1013.Fn bus_space_unmap
1014on them causes undefined behaviour.
1015The
1016.Fn bus_space_subregion
1017function can be used on
1018handles created by
1019.Fn bus_space_alloc .
1020.Ss Fn bus_space_free space handle size
1021The
1022.Fn bus_space_free
1023function unmaps and frees a region of bus space mapped
1024and allocated with
1025.Fn bus_space_alloc .
1026When unmapping a region, the
1027.Fa size
1028specified should be the same as the size given to
1029.Fn bus_space_alloc
1030when allocating the region.
1031.Pp
1032After
1033.Fn bus_space_free
1034is called on a handle, that handle is no longer valid.
1035(If copies were
1036made of the handle, they are no longer valid, either.)
1037.Pp
1038This function will never fail.
1039If it would fail (e.g.\& because of an
1040argument error), that indicates a software bug which should cause a
1041panic.
1042In that case,
1043.Fn bus_space_free
1044will never return.
1045.Sh READING AND WRITING SINGLE DATA ITEMS
1046The simplest way to access bus space is to read or write a single data
1047item.
1048The
1049.Fn bus_space_read_N
1050and
1051.Fn bus_space_write_N
1052families of functions provide
1053the ability to read and write 1, 2, 4, and 8 byte data items on buses
1054which support those access sizes.
1055.Ss Fn bus_space_read_1 space handle offset
1056.Ss Fn bus_space_read_2 space handle offset
1057.Ss Fn bus_space_read_4 space handle offset
1058.Ss Fn bus_space_read_8 space handle offset
1059The
1060.Fn bus_space_read_N
1061family of functions reads a 1, 2, 4, or 8 byte data item from
1062the offset specified by
1063.Fa offset
1064into the region specified by
1065.Fa handle
1066of the bus space specified by
1067.Fa space .
1068The location being read must lie within the bus space region specified by
1069.Fa handle .
1070.Pp
1071For portability, the starting address of the region specified by
1072.Fa handle
1073plus the offset should be a multiple of the size of data item being read.
1074On some systems, not obeying this requirement may cause incorrect data to
1075be read, on others it may cause a system crash.
1076.Pp
1077Read operations done by the
1078.Fn bus_space_read_N
1079functions may be executed out
1080of order with respect to other pending read and write operations unless
1081order is enforced by use of the
1082.Fn bus_space_barrier
1083function.
1084.Pp
1085These functions will never fail.
1086If they would fail (e.g.\& because of an
1087argument error), that indicates a software bug which should cause a
1088panic.
1089In that case, they will never return.
1090.Ss Fn bus_space_write_1 space handle offset value
1091.Ss Fn bus_space_write_2 space handle offset value
1092.Ss Fn bus_space_write_4 space handle offset value
1093.Ss Fn bus_space_write_8 space handle offset value
1094The
1095.Fn bus_space_write_N
1096family of functions writes a 1, 2, 4, or 8 byte data item to the offset
1097specified by
1098.Fa offset
1099into the region specified by
1100.Fa handle
1101of the bus space specified by
1102.Fa space .
1103The location being written must lie within
1104the bus space region specified by
1105.Fa handle .
1106.Pp
1107For portability, the starting address of the region specified by
1108.Fa handle
1109plus the offset should be a multiple of the size of data item being
1110written.
1111On some systems, not obeying this requirement may cause
1112incorrect data to be written, on others it may cause a system crash.
1113.Pp
1114Write operations done by the
1115.Fn bus_space_write_N
1116functions may be executed
1117out of order with respect to other pending read and write operations
1118unless order is enforced by use of the
1119.Fn bus_space_barrier
1120function.
1121.Pp
1122These functions will never fail.
1123If they would fail (e.g.\& because of an
1124argument error), that indicates a software bug which should cause a
1125panic.
1126In that case, they will never return.
1127.Sh BARRIERS
1128In order to allow high-performance buffering implementations to avoid bus
1129activity on every operation, read and write ordering should be specified
1130explicitly by drivers when necessary.
1131The
1132.Fn bus_space_barrier
1133function provides that ability.
1134.Ss Fn bus_space_barrier space handle offset length flags
1135The
1136.Fn bus_space_barrier
1137function enforces ordering of bus space read and write operations
1138for the specified subregion (described by the
1139.Fa offset
1140and
1141.Fa length
1142parameters) of the region named by
1143.Fa handle
1144in the space named by
1145.Fa space .
1146.Pp
1147The
1148.Fa flags
1149argument controls what types of operations are to be ordered.
1150Supported flags are:
1151.Bl -tag -width ".Dv BUS_SPACE_BARRIER_WRITE"
1152.It Dv BUS_SPACE_BARRIER_READ
1153Synchronize read operations.
1154.It Dv BUS_SPACE_BARRIER_WRITE
1155Synchronize write operations.
1156.El
1157.Pp
1158Those flags can be combined (or-ed together) to enforce ordering on both
1159read and write operations.
1160.Pp
1161All of the specified type(s) of operation which are done to the region
1162before the barrier operation are guaranteed to complete before any of the
1163specified type(s) of operation done after the barrier.
1164.Pp
1165Example: Consider a hypothetical device with two single-byte ports, one
1166write-only input port (at offset 0) and a read-only output port (at
1167offset 1).
1168Operation of the device is as follows: data bytes are written
1169to the input port, and are placed by the device on a stack, the top of
1170which is read by reading from the output port.
1171The sequence to correctly
1172write two data bytes to the device then read those two data bytes back
1173would be:
1174.Bd -literal
1175/*
1176 * t and h are the tag and handle for the mapped device's
1177 * space.
1178 */
1179bus_space_write_1(t, h, 0, data0);
1180bus_space_barrier(t, h, 0, 1, BUS_SPACE_BARRIER_WRITE);  /* 1 */
1181bus_space_write_1(t, h, 0, data1);
1182bus_space_barrier(t, h, 0, 2,
1183    BUS_SPACE_BARRIER_READ|BUS_SPACE_BARRIER_WRITE);     /* 2 */
1184ndata1 = bus_space_read_1(t, h, 1);
1185bus_space_barrier(t, h, 1, 1, BUS_SPACE_BARRIER_READ);   /* 3 */
1186ndata0 = bus_space_read_1(t, h, 1);
1187/* data0 == ndata0, data1 == ndata1 */
1188.Ed
1189.Pp
1190The first barrier makes sure that the first write finishes before the
1191second write is issued, so that two writes to the input port are done
1192in order and are not collapsed into a single write.
1193This ensures that
1194the data bytes are written to the device correctly and in order.
1195.Pp
1196The second barrier makes sure that the writes to the output port finish
1197before any of the reads to the input port are issued, thereby making sure
1198that all of the writes are finished before data is read.
1199This ensures
1200that the first byte read from the device really is the last one that was
1201written.
1202.Pp
1203The third barrier makes sure that the first read finishes before the
1204second read is issued, ensuring that data is read correctly and in order.
1205.Pp
1206The barriers in the example above are specified to cover the absolute
1207minimum number of bus space locations.
1208It is correct (and often
1209easier) to make barrier operations cover the device's whole range of bus
1210space, that is, to specify an offset of zero and the size of the
1211whole region.
1212.Sh REGION OPERATIONS
1213Some devices use buffers which are mapped as regions in bus space.
1214Often, drivers want to copy the contents of those buffers to or from
1215memory, e.g.\& into mbufs which can be passed to higher levels of the
1216system or from mbufs to be output to a network.
1217In order to allow
1218drivers to do this as efficiently as possible, the
1219.Fn bus_space_read_region_N
1220and
1221.Fn bus_space_write_region_N
1222families of functions are provided.
1223.Pp
1224Drivers occasionally need to copy one region of a bus space to another,
1225or to set all locations in a region of bus space to contain a single
1226value.
1227The
1228.Fn bus_space_copy_region_N
1229family of functions and the
1230.Fn bus_space_set_region_N
1231family of functions allow drivers to perform these operations.
1232.Ss Fn bus_space_read_region_1 space handle offset datap count
1233.Ss Fn bus_space_read_region_2 space handle offset datap count
1234.Ss Fn bus_space_read_region_4 space handle offset datap count
1235.Ss Fn bus_space_read_region_8 space handle offset datap count
1236The
1237.Fn bus_space_read_region_N
1238family of functions reads
1239.Fa count
12401, 2, 4, or 8 byte data items from bus space
1241starting at byte offset
1242.Fa offset
1243in the region specified by
1244.Fa handle
1245of the bus space specified by
1246.Fa space
1247and writes them into the array specified by
1248.Fa datap .
1249Each successive data item is read from an offset
12501, 2, 4, or 8 bytes after the previous data item (depending on which
1251function is used).
1252All locations being read must lie within the bus
1253space region specified by
1254.Fa handle .
1255.Pp
1256For portability, the starting address of the region specified by
1257.Fa handle
1258plus the offset should be a multiple of the size of data items being
1259read and the data array pointer should be properly aligned.
1260On some
1261systems, not obeying these requirements may cause incorrect data to be
1262read, on others it may cause a system crash.
1263.Pp
1264Read operations done by the
1265.Fn bus_space_read_region_N
1266functions may be executed in any order.
1267They may also be executed out
1268of order with respect to other pending read and write operations unless
1269order is enforced by use of the
1270.Fn bus_space_barrier
1271function.
1272There is no way to insert barriers between reads of
1273individual bus space locations executed by the
1274.Fn bus_space_read_region_N
1275functions.
1276.Pp
1277These functions will never fail.
1278If they would fail (e.g.\& because of an
1279argument error), that indicates a software bug which should cause a
1280panic.
1281In that case, they will never return.
1282.Ss Fn bus_space_write_region_1 space handle offset datap count
1283.Ss Fn bus_space_write_region_2 space handle offset datap count
1284.Ss Fn bus_space_write_region_4 space handle offset datap count
1285.Ss Fn bus_space_write_region_8 space handle offset datap count
1286The
1287.Fn bus_space_write_region_N
1288family of functions reads
1289.Fa count
12901, 2, 4, or 8 byte data items from the array
1291specified by
1292.Fa datap
1293and writes them to bus space starting at byte offset
1294.Fa offset
1295in the region specified by
1296.Fa handle
1297of the bus space specified
1298by
1299.Fa space .
1300Each successive data item is written to an offset 1, 2, 4,
1301or 8 bytes after the previous data item (depending on which function is
1302used).
1303All locations being written must lie within the bus space region
1304specified by
1305.Fa handle .
1306.Pp
1307For portability, the starting address of the region specified by
1308.Fa handle
1309plus the offset should be a multiple of the size of data items being
1310written and the data array pointer should be properly aligned.
1311On some
1312systems, not obeying these requirements may cause incorrect data to be
1313written, on others it may cause a system crash.
1314.Pp
1315Write operations done by the
1316.Fn bus_space_write_region_N
1317functions may be
1318executed in any order.
1319They may also be executed out of order with
1320respect to other pending read and write operations unless order is
1321enforced by use of the
1322.Fn bus_space_barrier
1323function.
1324There is no way to insert barriers between writes of
1325individual bus space locations executed by the
1326.Fn bus_space_write_region_N
1327functions.
1328.Pp
1329These functions will never fail.
1330If they would fail (e.g.\& because of an
1331argument error), that indicates a software bug which should cause a
1332panic.
1333In that case, they will never return.
1334.Ss Fn bus_space_copy_region_1 space srchandle srcoffset dsthandle \
1335dstoffset count
1336.Ss Fn bus_space_copy_region_2 space srchandle srcoffset dsthandle \
1337dstoffset count
1338.Ss Fn bus_space_copy_region_4 space srchandle srcoffset dsthandle \
1339dstoffset count
1340.Ss Fn bus_space_copy_region_8 space srchandle srcoffset dsthandle \
1341dstoffset count
1342The
1343.Fn bus_space_copy_region_N
1344family of functions copies
1345.Fa count
13461, 2, 4, or 8 byte data items in bus space
1347from the area starting at byte offset
1348.Fa srcoffset
1349in the region specified by
1350.Fa srchandle
1351of the bus space specified by
1352.Fa space
1353to the area starting at byte offset
1354.Fa dstoffset
1355in the region specified by
1356.Fa dsthandle
1357in the same bus space.
1358Each successive data item read or written has
1359an offset 1, 2, 4, or 8 bytes after the previous data item (depending
1360on which function is used).
1361All locations being read and written must
1362lie within the bus space region specified by their respective handles.
1363.Pp
1364For portability, the starting addresses of the regions specified by the
1365each handle plus its respective offset should be a multiple of the size
1366of data items being copied.
1367On some systems, not obeying this
1368requirement may cause incorrect data to be copied, on others it may cause
1369a system crash.
1370.Pp
1371Read and write operations done by the
1372.Fn bus_space_copy_region_N
1373functions may be executed in any order.
1374They may also be executed out
1375of order with respect to other pending read and write operations unless
1376order is enforced by use of the
1377.Fn bus_space_barrier
1378function.
1379There is no way to insert barriers between reads or writes of
1380individual bus space locations executed by the
1381.Fn bus_space_copy_region_N
1382functions.
1383.Pp
1384Overlapping copies between different subregions of a single region
1385of bus space are handled correctly by the
1386.Fn bus_space_copy_region_N
1387functions.
1388.Pp
1389These functions will never fail.
1390If they would fail (e.g.\& because of an
1391argument error), that indicates a software bug which should cause a
1392panic.
1393In that case, they will never return.
1394.Ss Fn bus_space_set_region_1 space handle offset value count
1395.Ss Fn bus_space_set_region_2 space handle offset value count
1396.Ss Fn bus_space_set_region_4 space handle offset value count
1397.Ss Fn bus_space_set_region_8 space handle offset value count
1398The
1399.Fn bus_space_set_region_N
1400family of functions writes the given
1401.Fa value
1402to
1403.Fa count
14041, 2, 4, or 8 byte
1405data items in bus space starting at byte offset
1406.Fa offset
1407in the region specified by
1408.Fa handle
1409of the bus space specified by
1410.Fa space .
1411Each successive data item has an offset 1, 2, 4, or 8 bytes after the
1412previous data item (depending on which function is used).
1413All
1414locations being written must lie within the bus space region specified
1415by
1416.Fa handle .
1417.Pp
1418For portability, the starting address of the region specified by
1419.Fa handle
1420plus the offset should be a multiple of the size of data items being
1421written.
1422On some systems, not obeying this requirement may cause
1423incorrect data to be written, on others it may cause a system crash.
1424.Pp
1425Write operations done by the
1426.Fn bus_space_set_region_N
1427functions may be
1428executed in any order.
1429They may also be executed out of order with
1430respect to other pending read and write operations unless order is
1431enforced by use of the
1432.Fn bus_space_barrier
1433function.
1434There is no way to insert barriers between writes of
1435individual bus space locations executed by the
1436.Fn bus_space_set_region_N
1437functions.
1438.Pp
1439These functions will never fail.
1440If they would fail (e.g.\& because of an
1441argument error), that indicates a software bug which should cause a
1442panic.
1443In that case, they will never return.
1444.Sh READING AND WRITING A SINGLE LOCATION MULTIPLE TIMES
1445Some devices implement single locations in bus space which are to be read
1446or written multiple times to communicate data, e.g.\& some ethernet
1447devices' packet buffer FIFOs.
1448In order to allow drivers to manipulate
1449these types of devices as efficiently as possible, the
1450.Fn bus_space_read_multi_N ,
1451.Fn bus_space_set_multi_N ,
1452and
1453.Fn bus_space_write_multi_N
1454families of functions are provided.
1455.Ss Fn bus_space_read_multi_1 space handle offset datap count
1456.Ss Fn bus_space_read_multi_2 space handle offset datap count
1457.Ss Fn bus_space_read_multi_4 space handle offset datap count
1458.Ss Fn bus_space_read_multi_8 space handle offset datap count
1459The
1460.Fn bus_space_read_multi_N
1461family of functions reads
1462.Fa count
14631, 2, 4, or 8 byte data items from bus space
1464at byte offset
1465.Fa offset
1466in the region specified by
1467.Fa handle
1468of the bus space specified by
1469.Fa space
1470and writes them into the array specified by
1471.Fa datap .
1472Each successive data item is read from the same location in bus
1473space.
1474The location being read must lie within the bus space region
1475specified by
1476.Fa handle .
1477.Pp
1478For portability, the starting address of the region specified by
1479.Fa handle
1480plus the offset should be a multiple of the size of data items being
1481read and the data array pointer should be properly aligned.
1482On some
1483systems, not obeying these requirements may cause incorrect data to be
1484read, on others it may cause a system crash.
1485.Pp
1486Read operations done by the
1487.Fn bus_space_read_multi_N
1488functions may be
1489executed out of order with respect to other pending read and write
1490operations unless order is enforced by use of the
1491.Fn bus_space_barrier
1492function.
1493Because the
1494.Fn bus_space_read_multi_N
1495functions read the same bus space location multiple times, they
1496place an implicit read barrier between each successive read of that bus
1497space location.
1498.Pp
1499These functions will never fail.
1500If they would fail (e.g.\& because of an
1501argument error), that indicates a software bug which should cause a
1502panic.
1503In that case, they will never return.
1504.Ss Fn bus_space_write_multi_1 space handle offset datap count
1505.Ss Fn bus_space_write_multi_2 space handle offset datap count
1506.Ss Fn bus_space_write_multi_4 space handle offset datap count
1507.Ss Fn bus_space_write_multi_8 space handle offset datap count
1508The
1509.Fn bus_space_write_multi_N
1510family of functions reads
1511.Fa count
15121, 2, 4, or 8 byte data items from the array
1513specified by
1514.Fa datap
1515and writes them into bus space at byte offset
1516.Fa offset
1517in the region specified by
1518.Fa handle
1519of the bus space specified by
1520.Fa space .
1521Each successive data item is written to the same location in
1522bus space.
1523The location being written must lie within the bus space
1524region specified by
1525.Fa handle .
1526.Pp
1527For portability, the starting address of the region specified by
1528.Fa handle
1529plus the offset should be a multiple of the size of data items being
1530written and the data array pointer should be properly aligned.
1531On some
1532systems, not obeying these requirements may cause incorrect data to be
1533written, on others it may cause a system crash.
1534.Pp
1535Write operations done by the
1536.Fn bus_space_write_multi_N
1537functions may be executed out of order with respect to other pending
1538read and write operations unless order is enforced by use of the
1539.Fn bus_space_barrier
1540function.
1541Because the
1542.Fn bus_space_write_multi_N
1543functions write the same bus space location multiple times, they
1544place an implicit write barrier between each successive write of that
1545bus space location.
1546.Pp
1547These functions will never fail.
1548If they would fail (e.g.\& because of an
1549argument error), that indicates a software bug which should cause a
1550panic.
1551In that case, they will never return.
1552.Ss Fn bus_space_set_multi_1 space handle offset value count
1553.Ss Fn bus_space_set_multi_2 space handle offset value count
1554.Ss Fn bus_space_set_multi_4 space handle offset value count
1555.Ss Fn bus_space_set_multi_8 space handle offset value count
1556The
1557.Fn bus_space_set_multi_N
1558writes
1559.Fa value
1560into bus space at byte offset
1561.Fa offset
1562in the region specified by
1563.Fa handle
1564of the bus space specified by
1565.Fa space ,
1566.Fa count
1567times.
1568The location being written must lie within the bus space
1569region specified by
1570.Fa handle .
1571.Pp
1572For portability, the starting address of the region specified by
1573.Fa handle
1574plus the offset should be a multiple of the size of data items being
1575written and the data array pointer should be properly aligned.
1576On some
1577systems, not obeying these requirements may cause incorrect data to be
1578written, on others it may cause a system crash.
1579.Pp
1580Write operations done by the
1581.Fn bus_space_set_multi_N
1582functions may be executed out of order with respect to other pending
1583read and write operations unless order is enforced by use of the
1584.Fn bus_space_barrier
1585function.
1586Because the
1587.Fn bus_space_set_multi_N
1588functions write the same bus space location multiple times, they
1589place an implicit write barrier between each successive write of that
1590bus space location.
1591.Pp
1592These functions will never fail.
1593If they would fail (e.g.\& because of an
1594argument error), that indicates a software bug which should cause a
1595panic.
1596In that case, they will never return.
1597.Sh STREAM FUNCTIONS
1598Most of the
1599.Nm
1600functions imply a host byte-order and a bus byte-order and take care of
1601any translation for the caller.
1602In some cases, however, hardware may map a FIFO or some other memory region
1603for which the caller may want to use multi-word, yet untranslated access.
1604Access to these types of memory regions should be with the
1605.Fn bus_space_*_stream_N
1606functions.
1607.Pp
1608.Bl -tag -compact -width Fn
1609.It Fn bus_space_read_stream_1
1610.It Fn bus_space_read_stream_2
1611.It Fn bus_space_read_stream_4
1612.It Fn bus_space_read_stream_8
1613.It Fn bus_space_read_multi_stream_1
1614.It Fn bus_space_read_multi_stream_2
1615.It Fn bus_space_read_multi_stream_4
1616.It Fn bus_space_read_multi_stream_8
1617.It Fn bus_space_read_region_stream_1
1618.It Fn bus_space_read_region_stream_2
1619.It Fn bus_space_read_region_stream_4
1620.It Fn bus_space_read_region_stream_8
1621.It Fn bus_space_write_stream_1
1622.It Fn bus_space_write_stream_2
1623.It Fn bus_space_write_stream_4
1624.It Fn bus_space_write_stream_8
1625.It Fn bus_space_write_multi_stream_1
1626.It Fn bus_space_write_multi_stream_2
1627.It Fn bus_space_write_multi_stream_4
1628.It Fn bus_space_write_multi_stream_8
1629.It Fn bus_space_write_region_stream_1
1630.It Fn bus_space_write_region_stream_2
1631.It Fn bus_space_write_region_stream_4
1632.It Fn bus_space_write_region_stream_8
1633.It Fn bus_space_copy_region_stream_1
1634.It Fn bus_space_copy_region_stream_2
1635.It Fn bus_space_copy_region_stream_4
1636.It Fn bus_space_copy_region_stream_8
1637.It Fn bus_space_set_multi_stream_1
1638.It Fn bus_space_set_multi_stream_2
1639.It Fn bus_space_set_multi_stream_4
1640.It Fn bus_space_set_multi_stream_8
1641.It Fn bus_space_set_region_stream_1
1642.It Fn bus_space_set_region_stream_2
1643.It Fn bus_space_set_region_stream_4
1644.It Fn bus_space_set_region_stream_8
1645.El
1646.Pp
1647These functions are defined just as their non-stream counterparts,
1648except that they provide no byte-order translation.
1649.Sh COMPATIBILITY
1650The current
1651.Nx
1652version of the
1653.Nm
1654interface specification differs slightly from the original
1655specification that came into wide use and
1656.Fx
1657adopted.
1658A few of the function names and arguments have changed
1659for consistency and increased functionality.
1660.Sh SEE ALSO
1661.Xr bus_dma 9
1662.Sh HISTORY
1663The
1664.Nm
1665functions were introduced in a different form (memory and I/O spaces
1666were accessed via different sets of functions) in
1667.Nx 1.2 .
1668The functions were merged to work on generic
1669.Dq spaces
1670early in the
1671.Nx 1.3
1672development cycle, and many drivers were converted to use them.
1673This document was written later during the
1674.Nx 1.3
1675development cycle, and the specification was updated to fix some
1676consistency problems and to add some missing functionality.
1677.Pp
1678The manual page was then adapted to the version of the interface that
1679.Fx
1680imported for the CAM SCSI drivers, plus subsequent evolution.
1681The
1682.Fx
1683.Nm
1684version was imported in
1685.Fx 3.0 .
1686.Sh AUTHORS
1687.An -nosplit
1688The
1689.Nm
1690interfaces were designed and implemented by the
1691.Nx
1692developer
1693community.
1694Primary contributors and implementors were
1695.An Chris Demetriou ,
1696.An Jason Thorpe ,
1697and
1698.An Charles Hannum ,
1699but the rest of the
1700.Nx
1701developers and the user community played a significant role in development.
1702.Pp
1703.An Justin Gibbs
1704ported these interfaces to
1705.Fx .
1706.Pp
1707.An Chris Demetriou
1708wrote this manual page.
1709.Pp
1710.An Warner Losh
1711modified it for the
1712.Fx
1713implementation.
1714.Sh BUGS
1715This manual may not completely and accurately document the interface,
1716and many parts of the interface are unspecified.
1717