/*- * Copyright (c) 1999 Cameron Grant * 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. * * $FreeBSD: src/sys/dev/sound/pcm/buffer.c,v 1.25.2.3 2007/04/26 08:21:43 ariff Exp $ * $DragonFly: src/sys/dev/sound/pcm/buffer.c,v 1.9 2007/06/16 19:48:05 hasso Exp $ */ #include #include "feeder_if.h" SND_DECLARE_FILE("$DragonFly: src/sys/dev/sound/pcm/buffer.c,v 1.9 2007/06/16 19:48:05 hasso Exp $"); struct snd_dbuf * sndbuf_create(device_t dev, char *drv, char *desc, struct pcm_channel *channel) { struct snd_dbuf *b; b = kmalloc(sizeof(*b), M_DEVBUF, M_WAITOK | M_ZERO); ksnprintf(b->name, SNDBUF_NAMELEN, "%s:%s", drv, desc); b->dev = dev; b->channel = channel; return b; } void sndbuf_destroy(struct snd_dbuf *b) { sndbuf_free(b); kfree(b, M_DEVBUF); } bus_addr_t sndbuf_getbufaddr(struct snd_dbuf *buf) { return (buf->buf_addr); } static void sndbuf_setmap(void *arg, bus_dma_segment_t *segs, int nseg, int error) { struct snd_dbuf *b = (struct snd_dbuf *)arg; if (bootverbose) { device_printf(b->dev, "sndbuf_setmap %lx, %lx; ", (u_long)segs[0].ds_addr, (u_long)segs[0].ds_len); kprintf("%p -> %lx\n", b->buf, (u_long)segs[0].ds_addr); } if (error == 0) b->buf_addr = segs[0].ds_addr; else b->buf_addr = 0; } /* * Allocate memory for DMA buffer. If the device does not use DMA transfers, * the driver can call kmalloc(9) and sndbuf_setup() itself. */ int sndbuf_alloc(struct snd_dbuf *b, bus_dma_tag_t dmatag, unsigned int size) { int ret; b->dmatag = dmatag; b->maxsize = size; b->bufsize = b->maxsize; b->buf_addr = 0; b->flags |= SNDBUF_F_MANAGED; if (bus_dmamem_alloc(b->dmatag, (void **)&b->buf, BUS_DMA_NOWAIT, &b->dmamap)) { sndbuf_free(b); return (ENOMEM); } if (bus_dmamap_load(b->dmatag, b->dmamap, b->buf, b->maxsize, sndbuf_setmap, b, 0) != 0 || b->buf_addr == 0) { sndbuf_free(b); return (ENOMEM); } ret = sndbuf_resize(b, 2, b->maxsize / 2); if (ret != 0) sndbuf_free(b); return (ret); } int sndbuf_setup(struct snd_dbuf *b, void *buf, unsigned int size) { b->flags &= ~SNDBUF_F_MANAGED; if (buf) b->flags |= SNDBUF_F_MANAGED; b->buf = buf; b->maxsize = size; b->bufsize = b->maxsize; return sndbuf_resize(b, 2, b->maxsize / 2); } void sndbuf_free(struct snd_dbuf *b) { if (b->tmpbuf) kfree(b->tmpbuf, M_DEVBUF); if (b->buf) { if (b->flags & SNDBUF_F_MANAGED) { if (b->dmamap) bus_dmamap_unload(b->dmatag, b->dmamap); if (b->dmatag) bus_dmamem_free(b->dmatag, b->buf, b->dmamap); } else kfree(b->buf, M_DEVBUF); } b->tmpbuf = NULL; b->buf = NULL; b->dmatag = NULL; b->dmamap = NULL; } int sndbuf_resize(struct snd_dbuf *b, unsigned int blkcnt, unsigned int blksz) { u_int8_t *tmpbuf, *f2; chn_lock(b->channel); if (b->maxsize == 0) goto out; if (blkcnt == 0) blkcnt = b->blkcnt; if (blksz == 0) blksz = b->blksz; if (blkcnt < 2 || blksz < 16 || (blkcnt * blksz > b->maxsize)) { chn_unlock(b->channel); return EINVAL; } if (blkcnt == b->blkcnt && blksz == b->blksz) goto out; chn_unlock(b->channel); tmpbuf = kmalloc(blkcnt * blksz, M_DEVBUF, M_NOWAIT); if (tmpbuf == NULL) return ENOMEM; chn_lock(b->channel); b->blkcnt = blkcnt; b->blksz = blksz; b->bufsize = blkcnt * blksz; f2 = b->tmpbuf; b->tmpbuf = tmpbuf; sndbuf_reset(b); chn_unlock(b->channel); if (f2 != NULL) kfree(f2, M_DEVBUF); return 0; out: chn_unlock(b->channel); return 0; } int sndbuf_remalloc(struct snd_dbuf *b, unsigned int blkcnt, unsigned int blksz) { u_int8_t *buf, *tmpbuf, *f1, *f2; unsigned int bufsize; int ret; if (blkcnt < 2 || blksz < 16) return EINVAL; bufsize = blksz * blkcnt; chn_unlock(b->channel); buf = kmalloc(bufsize, M_DEVBUF, M_WAITOK); if (buf == NULL) { ret = ENOMEM; goto out; } tmpbuf = kmalloc(bufsize, M_DEVBUF, M_WAITOK); if (tmpbuf == NULL) { kfree(buf, M_DEVBUF); ret = ENOMEM; goto out; } chn_lock(b->channel); b->blkcnt = blkcnt; b->blksz = blksz; b->bufsize = bufsize; b->maxsize = bufsize; f1 = b->buf; f2 = b->tmpbuf; b->buf = buf; b->tmpbuf = tmpbuf; sndbuf_reset(b); chn_unlock(b->channel); if (f1) kfree(f1, M_DEVBUF); if (f2) kfree(f2, M_DEVBUF); ret = 0; out: chn_lock(b->channel); return ret; } void sndbuf_clear(struct snd_dbuf *b, unsigned int length) { int i; u_char data, *p; if (length == 0) return; if (length > b->bufsize) length = b->bufsize; if (b->fmt & AFMT_SIGNED) data = 0x00; else data = 0x80; i = sndbuf_getfreeptr(b); p = sndbuf_getbuf(b); while (length > 0) { p[i] = data; length--; i++; if (i >= b->bufsize) i = 0; } } void sndbuf_fillsilence(struct snd_dbuf *b) { int i; u_char data, *p; if (b->fmt & AFMT_SIGNED) data = 0x00; else data = 0x80; i = 0; p = sndbuf_getbuf(b); while (i < b->bufsize) p[i++] = data; b->rp = 0; b->rl = b->bufsize; } void sndbuf_reset(struct snd_dbuf *b) { b->hp = 0; b->rp = 0; b->rl = 0; b->dl = 0; b->prev_total = 0; b->total = 0; b->xrun = 0; if (b->buf && b->bufsize > 0) sndbuf_clear(b, b->bufsize); } u_int32_t sndbuf_getfmt(struct snd_dbuf *b) { return b->fmt; } int sndbuf_setfmt(struct snd_dbuf *b, u_int32_t fmt) { b->fmt = fmt; b->bps = 1; b->bps <<= (b->fmt & AFMT_STEREO)? 1 : 0; if (b->fmt & AFMT_16BIT) b->bps <<= 1; else if (b->fmt & AFMT_24BIT) b->bps *= 3; else if (b->fmt & AFMT_32BIT) b->bps <<= 2; return 0; } unsigned int sndbuf_getspd(struct snd_dbuf *b) { return b->spd; } void sndbuf_setspd(struct snd_dbuf *b, unsigned int spd) { b->spd = spd; } unsigned int sndbuf_getalign(struct snd_dbuf *b) { static int align[] = {0, 1, 1, 2, 2, 2, 2, 3}; return align[b->bps - 1]; } unsigned int sndbuf_getblkcnt(struct snd_dbuf *b) { return b->blkcnt; } void sndbuf_setblkcnt(struct snd_dbuf *b, unsigned int blkcnt) { b->blkcnt = blkcnt; } unsigned int sndbuf_getblksz(struct snd_dbuf *b) { return b->blksz; } void sndbuf_setblksz(struct snd_dbuf *b, unsigned int blksz) { b->blksz = blksz; } unsigned int sndbuf_getbps(struct snd_dbuf *b) { return b->bps; } void * sndbuf_getbuf(struct snd_dbuf *b) { return b->buf; } void * sndbuf_getbufofs(struct snd_dbuf *b, unsigned int ofs) { KASSERT(ofs < b->bufsize, ("%s: ofs invalid %d", __func__, ofs)); return b->buf + ofs; } unsigned int sndbuf_getsize(struct snd_dbuf *b) { return b->bufsize; } unsigned int sndbuf_getmaxsize(struct snd_dbuf *b) { return b->maxsize; } unsigned int sndbuf_runsz(struct snd_dbuf *b) { return b->dl; } void sndbuf_setrun(struct snd_dbuf *b, int go) { b->dl = go? b->blksz : 0; } struct selinfo * sndbuf_getsel(struct snd_dbuf *b) { return &b->sel; } /************************************************************/ unsigned int sndbuf_getxrun(struct snd_dbuf *b) { SNDBUF_LOCKASSERT(b); return b->xrun; } void sndbuf_setxrun(struct snd_dbuf *b, unsigned int cnt) { SNDBUF_LOCKASSERT(b); b->xrun = cnt; } unsigned int sndbuf_gethwptr(struct snd_dbuf *b) { SNDBUF_LOCKASSERT(b); return b->hp; } void sndbuf_sethwptr(struct snd_dbuf *b, unsigned int ptr) { SNDBUF_LOCKASSERT(b); b->hp = ptr; } unsigned int sndbuf_getready(struct snd_dbuf *b) { SNDBUF_LOCKASSERT(b); KASSERT((b->rl >= 0) && (b->rl <= b->bufsize), ("%s: b->rl invalid %d", __func__, b->rl)); return b->rl; } unsigned int sndbuf_getreadyptr(struct snd_dbuf *b) { SNDBUF_LOCKASSERT(b); KASSERT((b->rp >= 0) && (b->rp <= b->bufsize), ("%s: b->rp invalid %d", __func__, b->rp)); return b->rp; } unsigned int sndbuf_getfree(struct snd_dbuf *b) { SNDBUF_LOCKASSERT(b); KASSERT((b->rl >= 0) && (b->rl <= b->bufsize), ("%s: b->rl invalid %d", __func__, b->rl)); return b->bufsize - b->rl; } unsigned int sndbuf_getfreeptr(struct snd_dbuf *b) { SNDBUF_LOCKASSERT(b); KASSERT((b->rp >= 0) && (b->rp <= b->bufsize), ("%s: b->rp invalid %d", __func__, b->rp)); KASSERT((b->rl >= 0) && (b->rl <= b->bufsize), ("%s: b->rl invalid %d", __func__, b->rl)); return (b->rp + b->rl) % b->bufsize; } unsigned int sndbuf_getblocks(struct snd_dbuf *b) { SNDBUF_LOCKASSERT(b); return b->total / b->blksz; } unsigned int sndbuf_getprevblocks(struct snd_dbuf *b) { SNDBUF_LOCKASSERT(b); return b->prev_total / b->blksz; } unsigned int sndbuf_gettotal(struct snd_dbuf *b) { SNDBUF_LOCKASSERT(b); return b->total; } void sndbuf_updateprevtotal(struct snd_dbuf *b) { SNDBUF_LOCKASSERT(b); b->prev_total = b->total; } /************************************************************/ int sndbuf_acquire(struct snd_dbuf *b, u_int8_t *from, unsigned int count) { int l; KASSERT(count <= sndbuf_getfree(b), ("%s: count %d > kfree %d", __func__, count, sndbuf_getfree(b))); KASSERT((b->rl >= 0) && (b->rl <= b->bufsize), ("%s: b->rl invalid %d", __func__, b->rl)); b->total += count; if (from != NULL) { while (count > 0) { l = MIN(count, sndbuf_getsize(b) - sndbuf_getfreeptr(b)); bcopy(from, sndbuf_getbufofs(b, sndbuf_getfreeptr(b)), l); from += l; b->rl += l; count -= l; } } else b->rl += count; KASSERT((b->rl >= 0) && (b->rl <= b->bufsize), ("%s: b->rl invalid %d, count %d", __func__, b->rl, count)); return 0; } int sndbuf_dispose(struct snd_dbuf *b, u_int8_t *to, unsigned int count) { int l; KASSERT(count <= sndbuf_getready(b), ("%s: count %d > ready %d", __func__, count, sndbuf_getready(b))); KASSERT((b->rl >= 0) && (b->rl <= b->bufsize), ("%s: b->rl invalid %d", __func__, b->rl)); if (to != NULL) { while (count > 0) { l = MIN(count, sndbuf_getsize(b) - sndbuf_getreadyptr(b)); bcopy(sndbuf_getbufofs(b, sndbuf_getreadyptr(b)), to, l); to += l; b->rl -= l; b->rp = (b->rp + l) % b->bufsize; count -= l; } } else { b->rl -= count; b->rp = (b->rp + count) % b->bufsize; } KASSERT((b->rl >= 0) && (b->rl <= b->bufsize), ("%s: b->rl invalid %d, count %d", __func__, b->rl, count)); return 0; } /* count is number of bytes we want added to destination buffer */ int sndbuf_feed(struct snd_dbuf *from, struct snd_dbuf *to, struct pcm_channel *channel, struct pcm_feeder *feeder, unsigned int count) { KASSERT(count > 0, ("can't feed 0 bytes")); if (sndbuf_getfree(to) < count) return EINVAL; count = FEEDER_FEED(feeder, channel, to->tmpbuf, count, from); if (count) sndbuf_acquire(to, to->tmpbuf, count); /* the root feeder has called sndbuf_dispose(from, , bytes fetched) */ return 0; } /************************************************************/ void sndbuf_dump(struct snd_dbuf *b, char *s, u_int32_t what) { kprintf("%s: [", s); if (what & 0x01) kprintf(" bufsize: %d, maxsize: %d", b->bufsize, b->maxsize); if (what & 0x02) kprintf(" dl: %d, rp: %d, rl: %d, hp: %d", b->dl, b->rp, b->rl, b->hp); if (what & 0x04) kprintf(" total: %d, prev_total: %d, xrun: %d", b->total, b->prev_total, b->xrun); if (what & 0x08) kprintf(" fmt: 0x%x, spd: %d", b->fmt, b->spd); if (what & 0x10) kprintf(" blksz: %d, blkcnt: %d, flags: 0x%x", b->blksz, b->blkcnt, b->flags); kprintf(" ]\n"); } /************************************************************/ u_int32_t sndbuf_getflags(struct snd_dbuf *b) { return b->flags; } void sndbuf_setflags(struct snd_dbuf *b, u_int32_t flags, int on) { b->flags &= ~flags; if (on) b->flags |= flags; }