/* $OpenBSD: opt.c,v 1.10 2024/04/22 10:42:04 ratchov Exp $ */ /* * Copyright (c) 2008-2011 Alexandre Ratchov * * Permission to use, copy, modify, and distribute this software for any * purpose with or without fee is hereby granted, provided that the above * copyright notice and this permission notice appear in all copies. * * THE SOFTWARE IS PROVIDED "AS IS" AND THE AUTHOR DISCLAIMS ALL WARRANTIES * WITH REGARD TO THIS SOFTWARE INCLUDING ALL IMPLIED WARRANTIES OF * MERCHANTABILITY AND FITNESS. IN NO EVENT SHALL THE AUTHOR BE LIABLE FOR * ANY SPECIAL, DIRECT, INDIRECT, OR CONSEQUENTIAL DAMAGES OR ANY DAMAGES * WHATSOEVER RESULTING FROM LOSS OF USE, DATA OR PROFITS, WHETHER IN AN * ACTION OF CONTRACT, NEGLIGENCE OR OTHER TORTIOUS ACTION, ARISING OUT OF * OR IN CONNECTION WITH THE USE OR PERFORMANCE OF THIS SOFTWARE. */ #include #include "dev.h" #include "midi.h" #include "opt.h" #include "sysex.h" #include "utils.h" struct opt *opt_list; void opt_midi_imsg(void *, unsigned char *, int); void opt_midi_omsg(void *, unsigned char *, int); void opt_midi_fill(void *, int); void opt_midi_exit(void *); struct midiops opt_midiops = { opt_midi_imsg, opt_midi_omsg, opt_midi_fill, opt_midi_exit }; void opt_midi_imsg(void *arg, unsigned char *msg, int len) { #ifdef DEBUG struct opt *o = arg; log_puts(o->name); log_puts(": can't receive midi messages\n"); panic(); #endif } void opt_midi_omsg(void *arg, unsigned char *msg, int len) { struct opt *o = arg; struct sysex *x; unsigned int fps, chan; if ((msg[0] & MIDI_CMDMASK) == MIDI_CTL && msg[1] == MIDI_CTL_VOL) { chan = msg[0] & MIDI_CHANMASK; if (chan >= DEV_NSLOT) return; if (slot_array[chan].opt != o) return; slot_setvol(slot_array + chan, msg[2]); ctl_onval(CTL_SLOT_LEVEL, slot_array + chan, NULL, msg[2]); return; } x = (struct sysex *)msg; if (x->start != SYSEX_START) return; if (len < SYSEX_SIZE(empty)) return; switch (x->type) { case SYSEX_TYPE_RT: if (x->id0 == SYSEX_CONTROL && x->id1 == SYSEX_MASTER) { if (len == SYSEX_SIZE(master)) { dev_master(o->dev, x->u.master.coarse); if (o->dev->master_enabled) { ctl_onval(CTL_DEV_MASTER, o->dev, NULL, x->u.master.coarse); } } return; } if (x->id0 != SYSEX_MMC) return; switch (x->id1) { case SYSEX_MMC_STOP: if (len != SYSEX_SIZE(stop)) return; if (o->mtc == NULL) return; mtc_setdev(o->mtc, o->dev); if (log_level >= 2) { log_puts(o->name); log_puts(": mmc stop\n"); } mtc_stop(o->mtc); break; case SYSEX_MMC_START: if (len != SYSEX_SIZE(start)) return; if (o->mtc == NULL) return; mtc_setdev(o->mtc, o->dev); if (log_level >= 2) { log_puts(o->name); log_puts(": mmc start\n"); } mtc_start(o->mtc); break; case SYSEX_MMC_LOC: if (len != SYSEX_SIZE(loc) || x->u.loc.len != SYSEX_MMC_LOC_LEN || x->u.loc.cmd != SYSEX_MMC_LOC_CMD) return; if (o->mtc == NULL) return; mtc_setdev(o->mtc, o->dev); switch (x->u.loc.hr >> 5) { case MTC_FPS_24: fps = 24; break; case MTC_FPS_25: fps = 25; break; case MTC_FPS_30: fps = 30; break; default: mtc_stop(o->mtc); return; } mtc_loc(o->mtc, (x->u.loc.hr & 0x1f) * 3600 * MTC_SEC + x->u.loc.min * 60 * MTC_SEC + x->u.loc.sec * MTC_SEC + x->u.loc.fr * (MTC_SEC / fps)); break; } break; case SYSEX_TYPE_EDU: if (x->id0 != SYSEX_AUCAT || x->id1 != SYSEX_AUCAT_DUMPREQ) return; if (len != SYSEX_SIZE(dumpreq)) return; dev_midi_dump(o->dev); break; } } void opt_midi_fill(void *arg, int count) { /* nothing to do */ } void opt_midi_exit(void *arg) { struct opt *o = arg; if (log_level >= 1) { log_puts(o->name); log_puts(": midi end point died\n"); panic(); } } /* * create a new audio sub-device "configuration" */ struct opt * opt_new(struct dev *d, char *name, int pmin, int pmax, int rmin, int rmax, int maxweight, int mmc, int dup, unsigned int mode) { struct dev *a; struct opt *o, **po; unsigned int len, num; char c; if (name == NULL) { name = d->name; len = strlen(name); } else { for (len = 0; name[len] != '\0'; len++) { if (len == OPT_NAMEMAX) { log_puts(name); log_puts(": too long\n"); return NULL; } c = name[len]; if ((c < 'a' || c > 'z') && (c < 'A' || c > 'Z')) { log_puts(name); log_puts(": only alphabetic chars allowed\n"); return NULL; } } } num = 0; for (po = &opt_list; *po != NULL; po = &(*po)->next) num++; if (num >= OPT_NMAX) { log_puts(name); log_puts(": too many opts\n"); return NULL; } if (opt_byname(name)) { log_puts(name); log_puts(": already defined\n"); return NULL; } if (mmc) { if (mtc_array[0].dev != NULL && mtc_array[0].dev != d) { log_puts(name); log_puts(": MTC already setup for another device\n"); return NULL; } mtc_array[0].dev = d; if (log_level >= 2) { dev_log(d); log_puts(": initial MTC source, controlled by MMC\n"); } } if (strcmp(d->name, name) == 0) a = d; else { /* circulate to the first "alternate" device (greatest num) */ for (a = d; a->alt_next->num > a->num; a = a->alt_next) ; } o = xmalloc(sizeof(struct opt)); o->num = num; o->alt_first = o->dev = a; o->refcnt = 0; /* * XXX: below, we allocate a midi input buffer, since we don't * receive raw midi data, so no need to allocate a input * ibuf. Possibly set imsg & fill callbacks to NULL and * use this to in midi_new() to check if buffers need to be * allocated */ o->midi = midi_new(&opt_midiops, o, MODE_MIDIIN | MODE_MIDIOUT); midi_tag(o->midi, o->num); if (mode & MODE_PLAY) { o->pmin = pmin; o->pmax = pmax; } if (mode & MODE_RECMASK) { o->rmin = rmin; o->rmax = rmax; } o->maxweight = maxweight; o->mtc = mmc ? &mtc_array[0] : NULL; o->dup = dup; o->mode = mode; memcpy(o->name, name, len + 1); o->next = *po; *po = o; if (log_level >= 2) { dev_log(d); log_puts("."); log_puts(o->name); log_puts(":"); if (o->mode & MODE_REC) { log_puts(" rec="); log_putu(o->rmin); log_puts(":"); log_putu(o->rmax); } if (o->mode & MODE_PLAY) { log_puts(" play="); log_putu(o->pmin); log_puts(":"); log_putu(o->pmax); log_puts(" vol="); log_putu(o->maxweight); } if (o->mode & MODE_MON) { log_puts(" mon="); log_putu(o->rmin); log_puts(":"); log_putu(o->rmax); } if (o->mode & (MODE_RECMASK | MODE_PLAY)) { if (o->mtc) log_puts(" mtc"); if (o->dup) log_puts(" dup"); } log_puts("\n"); } return o; } struct opt * opt_byname(char *name) { struct opt *o; for (o = opt_list; o != NULL; o = o->next) { if (strcmp(name, o->name) == 0) return o; } return NULL; } struct opt * opt_bynum(int num) { struct opt *o; for (o = opt_list; o != NULL; o = o->next) { if (o->num == num) return o; } return NULL; } void opt_del(struct opt *o) { struct opt **po; for (po = &opt_list; *po != o; po = &(*po)->next) { #ifdef DEBUG if (*po == NULL) { log_puts("opt_del: not on list\n"); panic(); } #endif } midi_del(o->midi); *po = o->next; xfree(o); } void opt_init(struct opt *o) { struct dev *d; if (strcmp(o->name, o->dev->name) != 0) { for (d = dev_list; d != NULL; d = d->next) { ctl_new(CTL_OPT_DEV, o, d, CTL_SEL, o->name, "server", -1, "device", d->name, -1, 1, o->dev == d); } } } void opt_done(struct opt *o) { struct dev *d; if (o->refcnt != 0) { // XXX: all clients are already kicked, so this never happens log_puts(o->name); log_puts(": still has refs\n"); } for (d = dev_list; d != NULL; d = d->next) ctl_del(CTL_OPT_DEV, o, d); } /* * Set opt's device, and (if necessary) move clients to * to the new device */ int opt_setdev(struct opt *o, struct dev *ndev) { struct dev *odev; struct ctl *c; struct ctlslot *p; struct slot *s; int i; if (!dev_ref(ndev)) return 0; odev = o->dev; if (odev == ndev) { dev_unref(ndev); return 1; } /* check if clients can use new device */ for (i = 0, s = slot_array; i < DEV_NSLOT; i++, s++) { if (s->opt != o) continue; if (s->ops != NULL && !dev_iscompat(odev, ndev)) { dev_unref(ndev); return 0; } } /* * if we're using MMC, move all opts to the new device, mtc_setdev() * will call us back * * XXX: move this to the end to avoid the recursion */ if (o->mtc != NULL && o->mtc->dev != ndev) { mtc_setdev(o->mtc, ndev); dev_unref(ndev); return 1; } c = ctl_find(CTL_OPT_DEV, o, o->dev); if (c != NULL) c->curval = 0; /* detach clients from old device */ for (i = 0, s = slot_array; i < DEV_NSLOT; i++, s++) { if (s->opt != o) continue; if (s->pstate == SLOT_RUN || s->pstate == SLOT_STOP) slot_detach(s); } o->dev = ndev; if (o->refcnt > 0) { dev_unref(odev); dev_ref(o->dev); } c = ctl_find(CTL_OPT_DEV, o, o->dev); if (c != NULL) { c->curval = 1; c->val_mask = ~0; } /* attach clients to new device */ for (i = 0, s = slot_array; i < DEV_NSLOT; i++, s++) { if (s->opt != o) continue; if (ndev != odev) { dev_midi_slotdesc(odev, s); dev_midi_slotdesc(ndev, s); dev_midi_vol(ndev, s); } c = ctl_find(CTL_SLOT_LEVEL, s, NULL); ctl_update(c); if (s->pstate == SLOT_RUN || s->pstate == SLOT_STOP) { slot_initconv(s); slot_attach(s); } } /* move controlling clients to new device */ for (p = ctlslot_array, i = 0; i < DEV_NCTLSLOT; i++, p++) { if (p->ops == NULL) continue; if (p->opt == o) ctlslot_update(p); } dev_unref(ndev); return 1; } /* * Get a reference to opt's device */ struct dev * opt_ref(struct opt *o) { struct dev *d; if (o->refcnt == 0) { if (strcmp(o->name, o->dev->name) == 0) { if (!dev_ref(o->dev)) return NULL; } else { /* find first working one */ d = o->alt_first; while (1) { if (dev_ref(d)) break; d = d->alt_next; if (d == o->alt_first) return NULL; } /* if device changed, move everything to the new one */ if (d != o->dev) opt_setdev(o, d); } } o->refcnt++; return o->dev; } /* * Release opt's device */ void opt_unref(struct opt *o) { o->refcnt--; if (o->refcnt == 0) dev_unref(o->dev); }