1*075d1d67Sskrll /* $NetBSD: audiobell.c,v 1.5 2021/07/21 06:35:44 skrll Exp $ */
2e622eac4Sisaki
3e622eac4Sisaki /*
4e622eac4Sisaki * Copyright (c) 1999 Richard Earnshaw
5e622eac4Sisaki * Copyright (c) 2004 Ben Harris
6e622eac4Sisaki *
7e622eac4Sisaki * Redistribution and use in source and binary forms, with or without
8e622eac4Sisaki * modification, are permitted provided that the following conditions
9e622eac4Sisaki * are met:
10e622eac4Sisaki * 1. Redistributions of source code must retain the above copyright
11e622eac4Sisaki * notice, this list of conditions and the following disclaimer.
12e622eac4Sisaki * 2. Redistributions in binary form must reproduce the above copyright
13e622eac4Sisaki * notice, this list of conditions and the following disclaimer in the
14e622eac4Sisaki * documentation and/or other materials provided with the distribution.
15e622eac4Sisaki * 3. All advertising materials mentioning features or use of this software
16e622eac4Sisaki * must display the following acknowledgement:
17e622eac4Sisaki * This product includes software developed by the RiscBSD team.
18e622eac4Sisaki * 4. The name of the author may not be used to endorse or promote products
19e622eac4Sisaki * derived from this software without specific prior written permission.
20e622eac4Sisaki *
21e622eac4Sisaki * THIS SOFTWARE IS PROVIDED BY THE AUTHOR ``AS IS'' AND ANY EXPRESS OR
22e622eac4Sisaki * IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES
23e622eac4Sisaki * OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE DISCLAIMED.
24e622eac4Sisaki * IN NO EVENT SHALL THE AUTHOR BE LIABLE FOR ANY DIRECT, INDIRECT,
25e622eac4Sisaki * INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT
26e622eac4Sisaki * NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE,
27e622eac4Sisaki * DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY
28e622eac4Sisaki * THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT
29e622eac4Sisaki * (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF
30e622eac4Sisaki * THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
31e622eac4Sisaki */
32e622eac4Sisaki
33*075d1d67Sskrll #include <sys/cdefs.h>
34*075d1d67Sskrll __KERNEL_RCSID(0, "$NetBSD: audiobell.c,v 1.5 2021/07/21 06:35:44 skrll Exp $");
35e622eac4Sisaki
36*075d1d67Sskrll #include <sys/param.h>
37*075d1d67Sskrll #include <sys/types.h>
38e622eac4Sisaki #include <sys/audioio.h>
39e622eac4Sisaki #include <sys/conf.h>
40e622eac4Sisaki #include <sys/device.h>
41e622eac4Sisaki #include <sys/malloc.h>
42e622eac4Sisaki #include <sys/systm.h>
43e622eac4Sisaki #include <sys/uio.h>
44e622eac4Sisaki
45e622eac4Sisaki #include <dev/audio/audio_if.h>
46e622eac4Sisaki #include <dev/audio/audiovar.h>
47e622eac4Sisaki #include <dev/audio/audiodef.h>
48e622eac4Sisaki #include <dev/audio/audiobellvar.h>
49e622eac4Sisaki
50c5b3f4feSisaki /*
51c5b3f4feSisaki * The hexadecagon is sufficiently close to a sine wave.
52c5b3f4feSisaki * Audiobell always outputs this 16 points data but changes its playback
53c5b3f4feSisaki * frequency. In addition, audio layer does linear interpolation in the
54c5b3f4feSisaki * frequency conversion stage, so the waveform becomes smooth.
55c5b3f4feSisaki * When the playback frequency rises (or the device frequency is not enough
56c5b3f4feSisaki * high) and one wave cannot be expressed with 16 points, the data is thinned
57c5b3f4feSisaki * out by power of two, like 8 points -> 4 points (triangular wave)
58c5b3f4feSisaki * -> 2 points (rectangular wave).
59c5b3f4feSisaki */
60c5b3f4feSisaki
61c5b3f4feSisaki /* Amplitude. Full scale amplitude is too loud. */
62c5b3f4feSisaki #define A(x) ((x) * 0.6)
63c5b3f4feSisaki
64c5b3f4feSisaki /* (sin(2*pi * (x/16)) * 32767 / 100) << 16 */
65c5b3f4feSisaki static const int32_t sinewave[] = {
66c5b3f4feSisaki A( 0),
67c5b3f4feSisaki A( 8217813),
68c5b3f4feSisaki A( 15184539),
69c5b3f4feSisaki A( 19839556),
70c5b3f4feSisaki A( 21474181),
71c5b3f4feSisaki A( 19839556),
72c5b3f4feSisaki A( 15184539),
73c5b3f4feSisaki A( 8217813),
74c5b3f4feSisaki A( 0),
75c5b3f4feSisaki A( -8217814),
76c5b3f4feSisaki A(-15184540),
77c5b3f4feSisaki A(-19839557),
78c5b3f4feSisaki A(-21474182),
79c5b3f4feSisaki A(-19839557),
80c5b3f4feSisaki A(-15184540),
81c5b3f4feSisaki A( -8217814),
82c5b3f4feSisaki };
83c5b3f4feSisaki #undef A
84e622eac4Sisaki
85e622eac4Sisaki /*
867a7ca364Sisaki * The minimum and the maximum buffer sizes must be a multiple of 32
877a7ca364Sisaki * (32 = countof(sinewave) * sizeof(uint16_t)).
887a7ca364Sisaki */
897a7ca364Sisaki #define MINBUFSIZE (1024)
907a7ca364Sisaki #define MAXBUFSIZE (4096)
917a7ca364Sisaki
927a7ca364Sisaki /*
93e622eac4Sisaki * dev is a device_t for the audio device to use.
94e622eac4Sisaki * pitch is the pitch of the bell in Hz,
95e622eac4Sisaki * period is the length in ms,
96e622eac4Sisaki * volume is the amplitude in % of max,
97e622eac4Sisaki * poll is no longer used.
98e622eac4Sisaki */
99e622eac4Sisaki void
audiobell(void * dev,u_int pitch,u_int period,u_int volume,int poll)100e622eac4Sisaki audiobell(void *dev, u_int pitch, u_int period, u_int volume, int poll)
101e622eac4Sisaki {
102e622eac4Sisaki dev_t audio;
103e622eac4Sisaki int16_t *buf;
104e622eac4Sisaki audio_file_t *file;
105e622eac4Sisaki audio_track_t *ptrack;
106e622eac4Sisaki struct uio auio;
107e622eac4Sisaki struct iovec aiov;
108c5b3f4feSisaki u_int i;
109c5b3f4feSisaki u_int j;
110c5b3f4feSisaki u_int remaincount;
111c5b3f4feSisaki u_int remainbytes;
112c5b3f4feSisaki u_int wave1count;
113c5b3f4feSisaki u_int wave1bytes;
1147a7ca364Sisaki u_int bufbytes;
115c5b3f4feSisaki u_int len;
116c5b3f4feSisaki u_int step;
117c5b3f4feSisaki u_int offset;
118c5b3f4feSisaki u_int play_sample_rate;
119c5b3f4feSisaki u_int mixer_sample_rate;
120e622eac4Sisaki
121e622eac4Sisaki KASSERT(volume <= 100);
122e622eac4Sisaki
1237a7ca364Sisaki /* Playing for 0msec does nothing. */
1247a7ca364Sisaki if (period == 0)
1257a7ca364Sisaki return;
1267a7ca364Sisaki
127e622eac4Sisaki /* The audio system isn't built for polling. */
128e622eac4Sisaki if (poll)
129e622eac4Sisaki return;
130e622eac4Sisaki
131e622eac4Sisaki buf = NULL;
132e622eac4Sisaki audio = AUDIO_DEVICE | device_unit((device_t)dev);
133e622eac4Sisaki
134e622eac4Sisaki /* If not configured, we can't beep. */
135c5b3f4feSisaki if (audiobellopen(audio, &file) != 0)
136e622eac4Sisaki return;
137e622eac4Sisaki
138e622eac4Sisaki ptrack = file->ptrack;
139c5b3f4feSisaki mixer_sample_rate = ptrack->mixer->track_fmt.sample_rate;
140e622eac4Sisaki
141c5b3f4feSisaki /* Limit pitch */
142c5b3f4feSisaki if (pitch < 20)
143c5b3f4feSisaki pitch = 20;
144e622eac4Sisaki
145c5b3f4feSisaki offset = 0;
146c5b3f4feSisaki if (pitch <= mixer_sample_rate / 16) {
147c5b3f4feSisaki /* 16-point sine wave */
148c5b3f4feSisaki step = 1;
149c5b3f4feSisaki } else if (pitch <= mixer_sample_rate / 8) {
150c5b3f4feSisaki /* 8-point sine wave */
151c5b3f4feSisaki step = 2;
152c5b3f4feSisaki } else if (pitch <= mixer_sample_rate / 4) {
153c5b3f4feSisaki /* 4-point sine wave, aka, triangular wave */
154c5b3f4feSisaki step = 4;
155c5b3f4feSisaki } else {
156c5b3f4feSisaki /* Rectangular wave */
157c5b3f4feSisaki if (pitch > mixer_sample_rate / 2)
158c5b3f4feSisaki pitch = mixer_sample_rate / 2;
159c5b3f4feSisaki step = 8;
160c5b3f4feSisaki offset = 4;
161c5b3f4feSisaki }
162e622eac4Sisaki
163c5b3f4feSisaki wave1count = __arraycount(sinewave) / step;
164c5b3f4feSisaki play_sample_rate = pitch * wave1count;
165c5b3f4feSisaki audiobellsetrate(file, play_sample_rate);
166c5b3f4feSisaki
167c5b3f4feSisaki /* msec to sample count */
168c5b3f4feSisaki remaincount = play_sample_rate * period / 1000;
169c5b3f4feSisaki /* Roundup to full wave */
170c5b3f4feSisaki remaincount = roundup(remaincount, wave1count);
171c5b3f4feSisaki remainbytes = remaincount * sizeof(int16_t);
172c5b3f4feSisaki wave1bytes = wave1count * sizeof(int16_t);
173c5b3f4feSisaki
1747a7ca364Sisaki /* Based on 3*usrbuf_blksize, but not too small or too large */
1757a7ca364Sisaki bufbytes = ptrack->usrbuf_blksize * NBLKHW;
1767a7ca364Sisaki if (bufbytes < MINBUFSIZE)
1777a7ca364Sisaki bufbytes = MINBUFSIZE;
1787a7ca364Sisaki else if (bufbytes > MAXBUFSIZE)
1797a7ca364Sisaki bufbytes = MAXBUFSIZE;
1807a7ca364Sisaki else
1817a7ca364Sisaki bufbytes = roundup(bufbytes, wave1bytes);
1827a7ca364Sisaki bufbytes = uimin(bufbytes, remainbytes);
1837a7ca364Sisaki KASSERT(bufbytes != 0);
1847a7ca364Sisaki buf = malloc(bufbytes, M_TEMP, M_WAITOK);
185e622eac4Sisaki if (buf == NULL)
186e622eac4Sisaki goto out;
187e622eac4Sisaki
188c5b3f4feSisaki /* Generate sinewave with specified volume */
189c5b3f4feSisaki j = offset;
1907a7ca364Sisaki for (i = 0; i < bufbytes / sizeof(int16_t); i++) {
191c5b3f4feSisaki /* XXX audio already has track volume feature though #if 0 */
192c5b3f4feSisaki buf[i] = AUDIO_SCALEDOWN(sinewave[j] * (int)volume, 16);
193c5b3f4feSisaki j += step;
194c5b3f4feSisaki j %= __arraycount(sinewave);
195e622eac4Sisaki }
196e622eac4Sisaki
197c5b3f4feSisaki /* Write while paused to avoid inserting silence. */
198e622eac4Sisaki ptrack->is_pause = true;
199c5b3f4feSisaki for (; remainbytes > 0; remainbytes -= len) {
2007a7ca364Sisaki len = uimin(remainbytes, bufbytes);
201e622eac4Sisaki aiov.iov_base = (void *)buf;
202e622eac4Sisaki aiov.iov_len = len;
203e622eac4Sisaki auio.uio_iov = &aiov;
204e622eac4Sisaki auio.uio_iovcnt = 1;
205e622eac4Sisaki auio.uio_offset = 0;
206e622eac4Sisaki auio.uio_resid = len;
207e622eac4Sisaki auio.uio_rw = UIO_WRITE;
208e622eac4Sisaki UIO_SETUP_SYSSPACE(&auio);
209e622eac4Sisaki if (audiobellwrite(file, &auio) != 0)
210e622eac4Sisaki goto out;
211e622eac4Sisaki
212e622eac4Sisaki if (ptrack->usrbuf.used >= ptrack->usrbuf_blksize * NBLKHW)
213e622eac4Sisaki ptrack->is_pause = false;
214e622eac4Sisaki }
215e622eac4Sisaki /* Here we go! */
216e622eac4Sisaki ptrack->is_pause = false;
217e622eac4Sisaki out:
218e622eac4Sisaki if (buf != NULL)
219e622eac4Sisaki free(buf, M_TEMP);
220e622eac4Sisaki audiobellclose(file);
221e622eac4Sisaki }
222