/*- * 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/feeder.c,v 1.33.2.3 2006/03/07 15:51:19 jhb Exp $ * $DragonFly: src/sys/dev/sound/pcm/feeder.c,v 1.6 2007/01/04 21:47:03 corecode Exp $ */ #include #include "feeder_if.h" SND_DECLARE_FILE("$DragonFly: src/sys/dev/sound/pcm/feeder.c,v 1.6 2007/01/04 21:47:03 corecode Exp $"); MALLOC_DEFINE(M_FEEDER, "feeder", "pcm feeder"); #define MAXFEEDERS 256 #undef FEEDER_DEBUG struct feedertab_entry { SLIST_ENTRY(feedertab_entry) link; struct feeder_class *feederclass; struct pcm_feederdesc *desc; int idx; }; static SLIST_HEAD(, feedertab_entry) feedertab; /*****************************************************************************/ void feeder_register(void *p) { static int feedercnt = 0; struct feeder_class *fc = p; struct feedertab_entry *fte; int i; if (feedercnt == 0) { KASSERT(fc->desc == NULL, ("first feeder not root: %s", fc->name)); SLIST_INIT(&feedertab); fte = kmalloc(sizeof(*fte), M_FEEDER, M_NOWAIT | M_ZERO); if (fte == NULL) { kprintf("can't allocate memory for root feeder: %s\n", fc->name); return; } fte->feederclass = fc; fte->desc = NULL; fte->idx = feedercnt; SLIST_INSERT_HEAD(&feedertab, fte, link); feedercnt++; /* we've got our root feeder so don't veto pcm loading anymore */ pcm_veto_load = 0; return; } KASSERT(fc->desc != NULL, ("feeder '%s' has no descriptor", fc->name)); /* beyond this point failure is non-fatal but may result in some translations being unavailable */ i = 0; while ((feedercnt < MAXFEEDERS) && (fc->desc[i].type > 0)) { /* kprintf("adding feeder %s, %x -> %x\n", fc->name, fc->desc[i].in, fc->desc[i].out); */ fte = kmalloc(sizeof(*fte), M_FEEDER, M_NOWAIT | M_ZERO); if (fte == NULL) { kprintf("can't allocate memory for feeder '%s', %x -> %x\n", fc->name, fc->desc[i].in, fc->desc[i].out); return; } fte->feederclass = fc; fte->desc = &fc->desc[i]; fte->idx = feedercnt; fte->desc->idx = feedercnt; SLIST_INSERT_HEAD(&feedertab, fte, link); i++; } feedercnt++; if (feedercnt >= MAXFEEDERS) kprintf("MAXFEEDERS (%d >= %d) exceeded\n", feedercnt, MAXFEEDERS); } static void feeder_unregisterall(void *p) { struct feedertab_entry *fte, *next; next = SLIST_FIRST(&feedertab); while (next != NULL) { fte = next; next = SLIST_NEXT(fte, link); kfree(fte, M_FEEDER); } } static int cmpdesc(struct pcm_feederdesc *n, struct pcm_feederdesc *m) { return ((n->type == m->type) && ((n->in == 0) || (n->in == m->in)) && ((n->out == 0) || (n->out == m->out)) && (n->flags == m->flags)); } static void feeder_destroy(struct pcm_feeder *f) { FEEDER_FREE(f); kobj_delete((kobj_t)f, M_FEEDER); } static struct pcm_feeder * feeder_create(struct feeder_class *fc, struct pcm_feederdesc *desc) { struct pcm_feeder *f; int err; f = (struct pcm_feeder *)kobj_create((kobj_class_t)fc, M_FEEDER, M_NOWAIT | M_ZERO); if (f == NULL) return NULL; f->align = fc->align; f->data = fc->data; f->source = NULL; f->parent = NULL; f->class = fc; f->desc = &(f->desc_static); if (desc) { *(f->desc) = *desc; } else { f->desc->type = FEEDER_ROOT; f->desc->in = 0; f->desc->out = 0; f->desc->flags = 0; f->desc->idx = 0; } err = FEEDER_INIT(f); if (err) { kprintf("feeder_init(%p) on %s returned %d\n", f, fc->name, err); feeder_destroy(f); return NULL; } return f; } struct feeder_class * feeder_getclass(struct pcm_feederdesc *desc) { struct feedertab_entry *fte; SLIST_FOREACH(fte, &feedertab, link) { if ((desc == NULL) && (fte->desc == NULL)) return fte->feederclass; if ((fte->desc != NULL) && (desc != NULL) && cmpdesc(desc, fte->desc)) return fte->feederclass; } return NULL; } int chn_addfeeder(struct pcm_channel *c, struct feeder_class *fc, struct pcm_feederdesc *desc) { struct pcm_feeder *nf; nf = feeder_create(fc, desc); if (nf == NULL) return ENOSPC; nf->source = c->feeder; /* XXX we should use the lowest common denominator for align */ if (nf->align > 0) c->align += nf->align; else if (nf->align < 0 && c->align < -nf->align) c->align = -nf->align; if (c->feeder != NULL) c->feeder->parent = nf; c->feeder = nf; return 0; } int chn_removefeeder(struct pcm_channel *c) { struct pcm_feeder *f; if (c->feeder == NULL) return -1; f = c->feeder; c->feeder = c->feeder->source; feeder_destroy(f); return 0; } struct pcm_feeder * chn_findfeeder(struct pcm_channel *c, u_int32_t type) { struct pcm_feeder *f; f = c->feeder; while (f != NULL) { if (f->desc->type == type) return f; f = f->source; } return NULL; } static int chainok(struct pcm_feeder *test, struct pcm_feeder *stop) { u_int32_t visited[MAXFEEDERS / 32]; u_int32_t idx, mask; bzero(visited, sizeof(visited)); while (test && (test != stop)) { idx = test->desc->idx; if (idx < 0) panic("bad idx %d", idx); if (idx >= MAXFEEDERS) panic("bad idx %d", idx); mask = 1 << (idx & 31); idx >>= 5; if (visited[idx] & mask) return 0; visited[idx] |= mask; test = test->source; } return 1; } static struct pcm_feeder * feeder_fmtchain(u_int32_t *to, struct pcm_feeder *source, struct pcm_feeder *stop, int maxdepth) { struct feedertab_entry *fte; struct pcm_feeder *try, *ret; DEB(kprintf("trying %s (0x%08x -> 0x%08x)...\n", source->class->name, source->desc->in, source->desc->out)); if (fmtvalid(source->desc->out, to)) { DEB(kprintf("got it\n")); return source; } if (maxdepth < 0) return NULL; SLIST_FOREACH(fte, &feedertab, link) { if (fte->desc == NULL) continue; if (fte->desc->type != FEEDER_FMT) continue; if (fte->desc->in == source->desc->out) { try = feeder_create(fte->feederclass, fte->desc); if (try) { try->source = source; ret = chainok(try, stop)? feeder_fmtchain(to, try, stop, maxdepth - 1) : NULL; if (ret != NULL) return ret; feeder_destroy(try); } } } /* kprintf("giving up %s...\n", source->class->name); */ return NULL; } int chn_fmtscore(u_int32_t fmt) { if (fmt & AFMT_32BIT) return 60; if (fmt & AFMT_24BIT) return 50; if (fmt & AFMT_16BIT) return 40; if (fmt & (AFMT_U8|AFMT_S8)) return 30; if (fmt & AFMT_MU_LAW) return 20; if (fmt & AFMT_A_LAW) return 10; return 0; } u_int32_t chn_fmtbestbit(u_int32_t fmt, u_int32_t *fmts) { u_int32_t best; int i, score, score2, oldscore; best = 0; score = chn_fmtscore(fmt); oldscore = 0; for (i = 0; fmts[i] != 0; i++) { score2 = chn_fmtscore(fmts[i]); if (oldscore == 0 || (score2 == score) || (score2 > oldscore && score2 < score) || (score2 < oldscore && score2 > score) || (oldscore < score && score2 > oldscore)) { best = fmts[i]; oldscore = score2; } } return best; } u_int32_t chn_fmtbeststereo(u_int32_t fmt, u_int32_t *fmts) { u_int32_t best; int i, score, score2, oldscore; best = 0; score = chn_fmtscore(fmt); oldscore = 0; for (i = 0; fmts[i] != 0; i++) { if ((fmt & AFMT_STEREO) == (fmts[i] & AFMT_STEREO)) { score2 = chn_fmtscore(fmts[i]); if (oldscore == 0 || (score2 == score) || (score2 > oldscore && score2 < score) || (score2 < oldscore && score2 > score) || (oldscore < score && score2 > oldscore)) { best = fmts[i]; oldscore = score2; } } } return best; } u_int32_t chn_fmtbest(u_int32_t fmt, u_int32_t *fmts) { u_int32_t best1, best2; int score, score1, score2; best1 = chn_fmtbeststereo(fmt, fmts); best2 = chn_fmtbestbit(fmt, fmts); if (best1 != 0 && best2 != 0) { if (fmt & AFMT_STEREO) return best1; else { score = chn_fmtscore(fmt); score1 = chn_fmtscore(best1); score2 = chn_fmtscore(best2); if (score1 == score2 || score1 == score) return best1; else if (score2 == score) return best2; else if (score1 > score2) return best1; return best2; } } else if (best2 == 0) return best1; else return best2; } u_int32_t chn_fmtchain(struct pcm_channel *c, u_int32_t *to) { struct pcm_feeder *try, *del, *stop; u_int32_t tmpfrom[2], tmpto[2], best, *from; int i, max, bestmax; KASSERT(c != NULL, ("c == NULL")); KASSERT(c->feeder != NULL, ("c->feeder == NULL")); KASSERT(to != NULL, ("to == NULL")); KASSERT(to[0] != 0, ("to[0] == 0")); stop = c->feeder; if (c->direction == PCMDIR_REC && c->feeder->desc->type == FEEDER_ROOT) { from = chn_getcaps(c)->fmtlist; if (fmtvalid(to[0], from)) from = to; else { best = chn_fmtbest(to[0], from); if (best != 0) { tmpfrom[0] = best; tmpfrom[1] = 0; from = tmpfrom; } } } else { tmpfrom[0] = c->feeder->desc->out; tmpfrom[1] = 0; from = tmpfrom; if (to[1] != 0) { if (fmtvalid(tmpfrom[0], to)) { tmpto[0] = tmpfrom[0]; tmpto[1] = 0; to = tmpto; } else { best = chn_fmtbest(tmpfrom[0], to); if (best != 0) { tmpto[0] = best; tmpto[1] = 0; to = tmpto; } } } } i = 0; best = 0; bestmax = 100; while (from[i] != 0) { c->feeder->desc->out = from[i]; try = NULL; max = 0; while (try == NULL && max < 8) { try = feeder_fmtchain(to, c->feeder, stop, max); if (try == NULL) max++; } if (try != NULL && max < bestmax) { bestmax = max; best = from[i]; } while (try != NULL && try != stop) { del = try; try = try->source; feeder_destroy(del); } i++; } if (best == 0) return 0; c->feeder->desc->out = best; try = feeder_fmtchain(to, c->feeder, stop, bestmax); if (try == NULL) return 0; c->feeder = try; c->align = 0; #ifdef FEEDER_DEBUG kprintf("\n\nchain: "); #endif while (try && (try != stop)) { #ifdef FEEDER_DEBUG kprintf("%s [%d]", try->class->name, try->desc->idx); if (try->source) kprintf(" -> "); #endif if (try->source) try->source->parent = try; if (try->align > 0) c->align += try->align; else if (try->align < 0 && c->align < -try->align) c->align = -try->align; try = try->source; } #ifdef FEEDER_DEBUG kprintf("%s [%d]\n", try->class->name, try->desc->idx); #endif if (c->direction == PCMDIR_REC) { try = c->feeder; while (try != NULL) { if (try->desc->type == FEEDER_ROOT) return try->desc->out; try = try->source; } return best; } else return c->feeder->desc->out; } void feeder_printchain(struct pcm_feeder *head) { struct pcm_feeder *f; kprintf("feeder chain (head @%p)\n", head); f = head; while (f != NULL) { kprintf("%s/%d @ %p\n", f->class->name, f->desc->idx, f); f = f->source; } kprintf("[end]\n\n"); } /*****************************************************************************/ static int feed_root(struct pcm_feeder *feeder, struct pcm_channel *ch, u_int8_t *buffer, u_int32_t count, void *source) { struct snd_dbuf *src = source; int l; u_int8_t x; KASSERT(count > 0, ("feed_root: count == 0")); /* count &= ~((1 << ch->align) - 1); */ KASSERT(count > 0, ("feed_root: aligned count == 0 (align = %d)", ch->align)); l = min(count, sndbuf_getready(src)); sndbuf_dispose(src, buffer, l); /* When recording only return as much data as available */ if (ch->direction == PCMDIR_REC) return l; /* if (l < count) kprintf("appending %d bytes\n", count - l); */ x = (sndbuf_getfmt(src) & AFMT_SIGNED)? 0 : 0x80; while (l < count) buffer[l++] = x; return count; } static kobj_method_t feeder_root_methods[] = { KOBJMETHOD(feeder_feed, feed_root), { 0, 0 } }; static struct feeder_class feeder_root_class = { .name = "feeder_root", .methods = feeder_root_methods, .size = sizeof(struct pcm_feeder), .align = 0, .desc = NULL, .data = NULL, }; SYSINIT(feeder_root, SI_SUB_DRIVERS, SI_ORDER_FIRST, feeder_register, &feeder_root_class); SYSUNINIT(feeder_root, SI_SUB_DRIVERS, SI_ORDER_FIRST, feeder_unregisterall, NULL);