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FreeBSD hs32.drive.ne.jp 9.1-RELEASE FreeBSD 9.1-RELEASE #1: Wed Jan 14 12:18:08 JST 2015 root@hs32.drive.ne.jp:/sys/amd64/compile/hs32 amd64 |
Current File : //sys/amd64/compile/hs32/modules/usr/src/sys/modules/s3/@/amd64/compile/hs32/modules/usr/src/sys/modules/accf_data/@/dev/sound/pcm/feeder_mixer.c |
/*- * Copyright (c) 2008-2009 Ariff Abdullah <ariff@FreeBSD.org> * All rights reserved. * * Redistribution and use in source and binary forms, with or without * modification, are permitted provided that the following conditions * are met: * 1. Redistributions of source code must retain the above copyright * notice, this list of conditions and the following disclaimer. * 2. Redistributions in binary form must reproduce the above copyright * notice, this list of conditions and the following disclaimer in the * documentation and/or other materials provided with the distribution. * * THIS SOFTWARE IS PROVIDED BY THE AUTHOR AND CONTRIBUTORS ``AS IS'' AND * ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE * IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE * ARE DISCLAIMED. IN NO EVENT SHALL THE AUTHOR OR CONTRIBUTORS BE LIABLE * FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL * DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS * OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) * HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT * LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY * OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF * SUCH DAMAGE. */ #ifdef _KERNEL #ifdef HAVE_KERNEL_OPTION_HEADERS #include "opt_snd.h" #endif #include <dev/sound/pcm/sound.h> #include <dev/sound/pcm/pcm.h> #include <dev/sound/pcm/vchan.h> #include "feeder_if.h" #define SND_USE_FXDIV #include "snd_fxdiv_gen.h" SND_DECLARE_FILE("$FreeBSD: release/9.1.0/sys/dev/sound/pcm/feeder_mixer.c 193640 2009-06-07 19:12:08Z ariff $"); #endif #undef SND_FEEDER_MULTIFORMAT #define SND_FEEDER_MULTIFORMAT 1 typedef void (*feed_mixer_t)(uint8_t *, uint8_t *, uint32_t); #define FEEDMIXER_DECLARE(SIGN, BIT, ENDIAN) \ static void \ feed_mixer_##SIGN##BIT##ENDIAN(uint8_t *src, uint8_t *dst, \ uint32_t count) \ { \ intpcm##BIT##_t z; \ intpcm_t x, y; \ \ src += count; \ dst += count; \ \ do { \ src -= PCM_##BIT##_BPS; \ dst -= PCM_##BIT##_BPS; \ count -= PCM_##BIT##_BPS; \ x = PCM_READ_##SIGN##BIT##_##ENDIAN(src); \ y = PCM_READ_##SIGN##BIT##_##ENDIAN(dst); \ z = INTPCM##BIT##_T(x) + y; \ x = PCM_CLAMP_##SIGN##BIT(z); \ _PCM_WRITE_##SIGN##BIT##_##ENDIAN(dst, x); \ } while (count != 0); \ } #if BYTE_ORDER == LITTLE_ENDIAN || defined(SND_FEEDER_MULTIFORMAT) FEEDMIXER_DECLARE(S, 16, LE) FEEDMIXER_DECLARE(S, 32, LE) #endif #if BYTE_ORDER == BIG_ENDIAN || defined(SND_FEEDER_MULTIFORMAT) FEEDMIXER_DECLARE(S, 16, BE) FEEDMIXER_DECLARE(S, 32, BE) #endif #ifdef SND_FEEDER_MULTIFORMAT FEEDMIXER_DECLARE(S, 8, NE) FEEDMIXER_DECLARE(S, 24, LE) FEEDMIXER_DECLARE(S, 24, BE) FEEDMIXER_DECLARE(U, 8, NE) FEEDMIXER_DECLARE(U, 16, LE) FEEDMIXER_DECLARE(U, 24, LE) FEEDMIXER_DECLARE(U, 32, LE) FEEDMIXER_DECLARE(U, 16, BE) FEEDMIXER_DECLARE(U, 24, BE) FEEDMIXER_DECLARE(U, 32, BE) #endif struct feed_mixer_info { uint32_t format; int bps; feed_mixer_t mix; }; #define FEEDMIXER_ENTRY(SIGN, BIT, ENDIAN) \ { \ AFMT_##SIGN##BIT##_##ENDIAN, PCM_##BIT##_BPS, \ feed_mixer_##SIGN##BIT##ENDIAN \ } static struct feed_mixer_info feed_mixer_info_tab[] = { FEEDMIXER_ENTRY(S, 8, NE), #if BYTE_ORDER == LITTLE_ENDIAN || defined(SND_FEEDER_MULTIFORMAT) FEEDMIXER_ENTRY(S, 16, LE), FEEDMIXER_ENTRY(S, 32, LE), #endif #if BYTE_ORDER == BIG_ENDIAN || defined(SND_FEEDER_MULTIFORMAT) FEEDMIXER_ENTRY(S, 16, BE), FEEDMIXER_ENTRY(S, 32, BE), #endif #ifdef SND_FEEDER_MULTIFORMAT FEEDMIXER_ENTRY(S, 24, LE), FEEDMIXER_ENTRY(S, 24, BE), FEEDMIXER_ENTRY(U, 8, NE), FEEDMIXER_ENTRY(U, 16, LE), FEEDMIXER_ENTRY(U, 24, LE), FEEDMIXER_ENTRY(U, 32, LE), FEEDMIXER_ENTRY(U, 16, BE), FEEDMIXER_ENTRY(U, 24, BE), FEEDMIXER_ENTRY(U, 32, BE), #endif { AFMT_AC3, PCM_16_BPS, NULL }, { AFMT_MU_LAW, PCM_8_BPS, feed_mixer_U8NE }, /* dummy */ { AFMT_A_LAW, PCM_8_BPS, feed_mixer_U8NE } /* dummy */ }; #define FEEDMIXER_TAB_SIZE ((int32_t) \ (sizeof(feed_mixer_info_tab) / \ sizeof(feed_mixer_info_tab[0]))) #define FEEDMIXER_DATA(i, c) ((void *) \ ((uintptr_t)((((i) & 0x1f) << 5) | \ ((c) & 0x1f)))) #define FEEDMIXER_INFOIDX(d) ((uint32_t)((uintptr_t)(d) >> 5) & 0x1f) #define FEEDMIXER_CHANNELS(d) ((uint32_t)((uintptr_t)(d)) & 0x1f) static int feed_mixer_init(struct pcm_feeder *f) { int i; if (f->desc->in != f->desc->out) return (EINVAL); for (i = 0; i < FEEDMIXER_TAB_SIZE; i++) { if (AFMT_ENCODING(f->desc->in) == feed_mixer_info_tab[i].format) { f->data = FEEDMIXER_DATA(i, AFMT_CHANNEL(f->desc->in)); return (0); } } return (EINVAL); } static int feed_mixer_set(struct pcm_feeder *f, int what, int value) { switch (what) { case FEEDMIXER_CHANNELS: if (value < SND_CHN_MIN || value > SND_CHN_MAX) return (EINVAL); f->data = FEEDMIXER_DATA(FEEDMIXER_INFOIDX(f->data), value); break; default: return (EINVAL); break; } return (0); } static __inline int feed_mixer_rec(struct pcm_channel *c) { struct pcm_channel *ch; struct snd_dbuf *b, *bs; uint32_t cnt, maxfeed; int rdy; /* * Reset ready and moving pointer. We're not using bufsoft * anywhere since its sole purpose is to become the primary * distributor for the recorded buffer and also as an interrupt * threshold progress indicator. */ b = c->bufsoft; b->rp = 0; b->rl = 0; cnt = sndbuf_getsize(b); maxfeed = SND_FXROUND(SND_FXDIV_MAX, sndbuf_getalign(b)); do { cnt = FEEDER_FEED(c->feeder->source, c, b->tmpbuf, min(cnt, maxfeed), c->bufhard); if (cnt != 0) { sndbuf_acquire(b, b->tmpbuf, cnt); cnt = sndbuf_getfree(b); } } while (cnt != 0); /* Not enough data */ if (b->rl < sndbuf_getalign(b)) { b->rl = 0; return (0); } /* * Keep track of ready and moving pointer since we will use * bufsoft over and over again, pretending nothing has happened. */ rdy = b->rl; CHN_FOREACH(ch, c, children.busy) { CHN_LOCK(ch); if (CHN_STOPPED(ch) || (ch->flags & CHN_F_DIRTY)) { CHN_UNLOCK(ch); continue; } #ifdef SND_DEBUG if ((c->flags & CHN_F_DIRTY) && VCHAN_SYNC_REQUIRED(ch)) { if (vchan_sync(ch) != 0) { CHN_UNLOCK(ch); continue; } } #endif bs = ch->bufsoft; if (ch->flags & CHN_F_MMAP) sndbuf_dispose(bs, NULL, sndbuf_getready(bs)); cnt = sndbuf_getfree(bs); if (cnt < sndbuf_getalign(bs)) { CHN_UNLOCK(ch); continue; } maxfeed = SND_FXROUND(SND_FXDIV_MAX, sndbuf_getalign(bs)); do { cnt = FEEDER_FEED(ch->feeder, ch, bs->tmpbuf, min(cnt, maxfeed), b); if (cnt != 0) { sndbuf_acquire(bs, bs->tmpbuf, cnt); cnt = sndbuf_getfree(bs); } } while (cnt != 0); /* * Not entirely flushed out... */ if (b->rl != 0) ch->xruns++; CHN_UNLOCK(ch); /* * Rewind buffer position for next virtual channel. */ b->rp = 0; b->rl = rdy; } /* * Set ready pointer to indicate that our children are ready * to be woken up, also as an interrupt threshold progress * indicator. */ b->rl = 1; c->flags &= ~CHN_F_DIRTY; /* * Return 0 to bail out early from sndbuf_feed() loop. * No need to increase feedcount counter since part of this * feeder chains already include feed_root(). */ return (0); } static int feed_mixer_feed(struct pcm_feeder *f, struct pcm_channel *c, uint8_t *b, uint32_t count, void *source) { struct feed_mixer_info *info; struct snd_dbuf *src = source; struct pcm_channel *ch; uint32_t cnt, mcnt, rcnt, sz; int passthrough; uint8_t *tmp; if (c->direction == PCMDIR_REC) return (feed_mixer_rec(c)); sz = sndbuf_getsize(src); if (sz < count) count = sz; info = &feed_mixer_info_tab[FEEDMIXER_INFOIDX(f->data)]; sz = info->bps * FEEDMIXER_CHANNELS(f->data); count = SND_FXROUND(count, sz); if (count < sz) return (0); /* * We are going to use our source as a temporary buffer since it's * got no other purpose. We obtain our data by traversing the channel * list of children and calling mixer function to mix count bytes from * each into our destination buffer, b. */ tmp = sndbuf_getbuf(src); rcnt = 0; mcnt = 0; passthrough = 0; /* 'passthrough' / 'exclusive' marker */ CHN_FOREACH(ch, c, children.busy) { CHN_LOCK(ch); if (CHN_STOPPED(ch) || (ch->flags & CHN_F_DIRTY)) { CHN_UNLOCK(ch); continue; } #ifdef SND_DEBUG if ((c->flags & CHN_F_DIRTY) && VCHAN_SYNC_REQUIRED(ch)) { if (vchan_sync(ch) != 0) { CHN_UNLOCK(ch); continue; } } #endif if ((ch->flags & CHN_F_MMAP) && !(ch->flags & CHN_F_CLOSING)) sndbuf_acquire(ch->bufsoft, NULL, sndbuf_getfree(ch->bufsoft)); if (info->mix == NULL) { /* * Passthrough. Dump the first digital/passthrough * channel into destination buffer, and the rest into * nothingness (mute effect). */ if (passthrough == 0 && (ch->format & AFMT_PASSTHROUGH)) { rcnt = SND_FXROUND(FEEDER_FEED(ch->feeder, ch, b, count, ch->bufsoft), sz); passthrough = 1; } else FEEDER_FEED(ch->feeder, ch, tmp, count, ch->bufsoft); } else if (c->flags & CHN_F_EXCLUSIVE) { /* * Exclusive. Dump the first 'exclusive' channel into * destination buffer, and the rest into nothingness * (mute effect). */ if (passthrough == 0 && (ch->flags & CHN_F_EXCLUSIVE)) { rcnt = SND_FXROUND(FEEDER_FEED(ch->feeder, ch, b, count, ch->bufsoft), sz); passthrough = 1; } else FEEDER_FEED(ch->feeder, ch, tmp, count, ch->bufsoft); } else { if (rcnt == 0) { rcnt = SND_FXROUND(FEEDER_FEED(ch->feeder, ch, b, count, ch->bufsoft), sz); mcnt = count - rcnt; } else { cnt = SND_FXROUND(FEEDER_FEED(ch->feeder, ch, tmp, count, ch->bufsoft), sz); if (cnt != 0) { if (mcnt != 0) { memset(b + rcnt, sndbuf_zerodata( f->desc->out), mcnt); mcnt = 0; } info->mix(tmp, b, cnt); if (cnt > rcnt) rcnt = cnt; } } } CHN_UNLOCK(ch); } if (++c->feedcount == 0) c->feedcount = 2; c->flags &= ~CHN_F_DIRTY; return (rcnt); } static struct pcm_feederdesc feeder_mixer_desc[] = { { FEEDER_MIXER, 0, 0, 0, 0 }, { 0, 0, 0, 0, 0 } }; static kobj_method_t feeder_mixer_methods[] = { KOBJMETHOD(feeder_init, feed_mixer_init), KOBJMETHOD(feeder_set, feed_mixer_set), KOBJMETHOD(feeder_feed, feed_mixer_feed), KOBJMETHOD_END }; FEEDER_DECLARE(feeder_mixer, NULL);