/* $OpenBSD: midi.c,v 1.15 2016/01/08 16:17:31 ratchov Exp $ */ /* * Copyright (c) 2008-2012 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 #include #include "abuf.h" #include "defs.h" #include "dev.h" #include "file.h" #include "midi.h" #include "miofile.h" #include "sysex.h" #include "utils.h" int port_open(struct port *); void port_imsg(void *, unsigned char *, int); void port_omsg(void *, unsigned char *, int); void port_fill(void *, int); void port_exit(void *); struct midiops port_midiops = { port_imsg, port_omsg, port_fill, port_exit }; #define MIDI_NEP 32 struct midi midi_ep[MIDI_NEP]; struct port *port_list = NULL; unsigned int midi_portnum = 0; struct midithru { unsigned int txmask, rxmask; #define MIDITHRU_NMAX 32 } midithru[MIDITHRU_NMAX]; /* * length of voice and common messages (status byte included) */ unsigned int voice_len[] = { 3, 3, 3, 3, 2, 2, 3 }; unsigned int common_len[] = { 0, 2, 3, 2, 0, 0, 1, 1 }; void midi_log(struct midi *ep) { log_puts("midi"); log_putu(ep - midi_ep); } void midi_init(void) { } void midi_done(void) { } struct midi * midi_new(struct midiops *ops, void *arg, int mode) { int i; struct midi *ep; for (i = 0, ep = midi_ep;; i++, ep++) { if (i == MIDI_NEP) return NULL; if (ep->ops == NULL) break; } ep->ops = ops; ep->arg = arg; ep->used = 0; ep->len = 0; ep->idx = 0; ep->st = 0; ep->txmask = 0; ep->self = 1 << i; ep->tickets = 0; ep->mode = mode; /* * the output buffer is the client intput */ if (ep->mode & MODE_MIDIIN) abuf_init(&ep->obuf, MIDI_BUFSZ); midi_tickets(ep); return ep; } void midi_del(struct midi *ep) { int i; struct midi *peer; ep->txmask = 0; for (i = 0; i < MIDI_NEP; i++) { peer = midi_ep + i; if (peer->txmask & ep->self) { peer->txmask &= ~ep->self; midi_tickets(peer); } } for (i = 0; i < MIDITHRU_NMAX; i++) { midithru[i].txmask &= ~ep->self; midithru[i].rxmask &= ~ep->self; } ep->ops = NULL; if (ep->mode & MODE_MIDIIN) { abuf_done(&ep->obuf); } } /* * connect two midi endpoints */ void midi_link(struct midi *ep, struct midi *peer) { if (ep->mode & MODE_MIDIOUT) { ep->txmask |= peer->self; midi_tickets(ep); } if (ep->mode & MODE_MIDIIN) { #ifdef DEBUG if (ep->obuf.used > 0) { midi_log(ep); log_puts(": linked with non-empty buffer\n"); panic(); } #endif /* ep has empry buffer, so no need to call midi_tickets() */ peer->txmask |= ep->self; } } /* * add the midi endpoint in the ``tag'' midi thru box */ void midi_tag(struct midi *ep, unsigned int tag) { struct midi *peer; struct midithru *t = midithru + tag; int i; if (ep->mode & MODE_MIDIOUT) { ep->txmask |= t->txmask; midi_tickets(ep); } if (ep->mode & MODE_MIDIIN) { #ifdef DEBUG if (ep->obuf.used > 0) { midi_log(ep); log_puts(": tagged with non-empty buffer\n"); panic(); } #endif for (i = 0; i < MIDI_NEP; i++) { if (!(t->rxmask & (1 << i))) continue; peer = midi_ep + i; peer->txmask |= ep->self; } } if (ep->mode & MODE_MIDIOUT) t->rxmask |= ep->self; if (ep->mode & MODE_MIDIIN) t->txmask |= ep->self; } /* * broadcast the given message to other endpoints */ void midi_send(struct midi *iep, unsigned char *msg, int size) { struct midi *oep; int i; #ifdef DEBUG if (log_level >= 4) { midi_log(iep); log_puts(": sending:"); for (i = 0; i < size; i++) { log_puts(" "); log_putx(msg[i]); } log_puts("\n"); } #endif for (i = 0; i < MIDI_NEP ; i++) { if ((iep->txmask & (1 << i)) == 0) continue; oep = midi_ep + i; if (msg[0] <= 0x7f) { if (oep->owner != iep) continue; } else if (msg[0] <= 0xf7) oep->owner = iep; #ifdef DEBUG if (log_level >= 4) { midi_log(iep); log_puts(" -> "); midi_log(oep); log_puts("\n"); } #endif oep->ops->omsg(oep->arg, msg, size); } } /* * determine if we have gained more input tickets, and if so call the * fill() call-back to notify the i/o layer that it can send more data */ void midi_tickets(struct midi *iep) { int i, tickets, avail, maxavail; struct midi *oep; maxavail = MIDI_BUFSZ; for (i = 0; i < MIDI_NEP ; i++) { if ((iep->txmask & (1 << i)) == 0) continue; oep = midi_ep + i; avail = oep->obuf.len - oep->obuf.used; if (maxavail > avail) maxavail = avail; } /* * in the worst case output message is twice the * input message (2-byte messages with running status) */ tickets = maxavail / 2 - iep->tickets; if (tickets > 0) { iep->tickets += tickets; iep->ops->fill(iep->arg, tickets); } } /* * recalculate tickets of endpoints sending data to this one */ void midi_fill(struct midi *oep) { int i; struct midi *iep; for (i = 0; i < MIDI_NEP; i++) { iep = midi_ep + i; if (iep->txmask & oep->self) midi_tickets(iep); } } /* * parse then give data chunk, and calling imsg() for each message */ void midi_in(struct midi *iep, unsigned char *idata, int icount) { int i; unsigned char c; for (i = 0; i < icount; i++) { c = *idata++; if (c >= 0xf8) { if (c != MIDI_ACK) iep->ops->imsg(iep->arg, &c, 1); } else if (c == SYSEX_END) { if (iep->st == SYSEX_START) { iep->msg[iep->idx++] = c; iep->ops->imsg(iep->arg, iep->msg, iep->idx); } iep->st = 0; iep->idx = 0; } else if (c >= 0xf0) { iep->msg[0] = c; iep->len = common_len[c & 7]; iep->st = c; iep->idx = 1; } else if (c >= 0x80) { iep->msg[0] = c; iep->len = voice_len[(c >> 4) & 7]; iep->st = c; iep->idx = 1; } else if (iep->st) { if (iep->idx == 0 && iep->st != SYSEX_START) iep->msg[iep->idx++] = iep->st; iep->msg[iep->idx++] = c; if (iep->idx == iep->len) { iep->ops->imsg(iep->arg, iep->msg, iep->idx); if (iep->st >= 0xf0) iep->st = 0; iep->idx = 0; } else if (iep->idx == MIDI_MSGMAX) { /* sysex continued */ iep->ops->imsg(iep->arg, iep->msg, iep->idx); iep->idx = 0; } } } iep->tickets -= icount; if (iep->tickets < 0) iep->tickets = 0; midi_tickets(iep); } /* * store the given message in the output buffer */ void midi_out(struct midi *oep, unsigned char *idata, int icount) { unsigned char *odata; int ocount; #ifdef DEBUG int i; #endif while (icount > 0) { if (oep->obuf.used == oep->obuf.len) { #ifdef DEBUG if (log_level >= 2) { midi_log(oep); log_puts(": too slow, discarding "); log_putu(oep->obuf.used); log_puts(" bytes\n"); } #endif abuf_rdiscard(&oep->obuf, oep->obuf.used); oep->owner = NULL; return; } odata = abuf_wgetblk(&oep->obuf, &ocount); if (ocount > icount) ocount = icount; memcpy(odata, idata, ocount); #ifdef DEBUG if (log_level >= 4) { midi_log(oep); log_puts(": out: "); for (i = 0; i < ocount; i++) { log_puts(" "); log_putx(odata[i]); } log_puts("\n"); } #endif abuf_wcommit(&oep->obuf, ocount); icount -= ocount; idata += ocount; } } void port_log(struct port *p) { midi_log(p->midi); } void port_imsg(void *arg, unsigned char *msg, int size) { struct port *p = arg; midi_send(p->midi, msg, size); } void port_omsg(void *arg, unsigned char *msg, int size) { struct port *p = arg; midi_out(p->midi, msg, size); } void port_fill(void *arg, int count) { /* no flow control */ } void port_exit(void *arg) { #ifdef DEBUG struct port *p = arg; if (log_level >= 3) { port_log(p); log_puts(": port exit\n"); panic(); } #endif } /* * create a new midi port */ struct port * port_new(char *path, unsigned int mode, int hold) { struct port *c; c = xmalloc(sizeof(struct port)); c->path = xstrdup(path); c->state = PORT_CFG; c->hold = hold; c->midi = midi_new(&port_midiops, c, mode); c->num = midi_portnum++; c->next = port_list; port_list = c; return c; } /* * destroy the given midi port */ void port_del(struct port *c) { struct port **p; if (c->state != PORT_CFG) port_close(c); midi_del(c->midi); for (p = &port_list; *p != c; p = &(*p)->next) { #ifdef DEBUG if (*p == NULL) { log_puts("port to delete not on list\n"); panic(); } #endif } *p = c->next; xfree(c->path); xfree(c); } int port_ref(struct port *c) { #ifdef DEBUG if (log_level >= 3) { port_log(c); log_puts(": port requested\n"); } #endif if (c->state == PORT_CFG && !port_open(c)) return 0; return 1; } void port_unref(struct port *c) { int i, rxmask; #ifdef DEBUG if (log_level >= 3) { port_log(c); log_puts(": port released\n"); } #endif for (rxmask = 0, i = 0; i < MIDI_NEP; i++) rxmask |= midi_ep[i].txmask; if ((rxmask & c->midi->self) == 0 && c->midi->txmask == 0 && c->state == PORT_INIT && !c->hold) port_drain(c); } struct port * port_bynum(int num) { struct port *p; for (p = port_list; p != NULL; p = p->next) { if (p->num == num) return p; } return NULL; } int port_open(struct port *c) { if (!port_mio_open(c)) { if (log_level >= 1) { log_puts(c->path); log_puts(": failed to open midi port\n"); } return 0; } c->state = PORT_INIT; return 1; } int port_close(struct port *c) { int i; struct midi *ep; #ifdef DEBUG if (c->state == PORT_CFG) { port_log(c); log_puts(": can't close port (not opened)\n"); panic(); } #endif c->state = PORT_CFG; port_mio_close(c); for (i = 0; i < MIDI_NEP; i++) { ep = midi_ep + i; if ((ep->txmask & c->midi->self) || (c->midi->txmask & ep->self)) ep->ops->exit(ep->arg); } return 1; } void port_drain(struct port *c) { struct midi *ep = c->midi; if (!(ep->mode & MODE_MIDIOUT) || ep->obuf.used == 0) port_close(c); else { c->state = PORT_DRAIN; #ifdef DEBUG if (log_level >= 3) { port_log(c); log_puts(": draining\n"); } #endif } } int port_init(struct port *c) { if (c->hold) return port_open(c); return 1; } void port_done(struct port *c) { if (c->state == PORT_INIT) port_drain(c); }