/* * Copyright (c) 2008-2014 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 #include #include #include #include #include "abuf.h" #include "afile.h" #include "dsp.h" #include "sysex.h" #include "utils.h" /* * masks to extract command and channel of status byte */ #define MIDI_CMDMASK 0xf0 #define MIDI_CHANMASK 0x0f /* * MIDI status bytes of voice messages */ #define MIDI_NOFF 0x80 /* note off */ #define MIDI_NON 0x90 /* note on */ #define MIDI_KAT 0xa0 /* key after touch */ #define MIDI_CTL 0xb0 /* controller */ #define MIDI_PC 0xc0 /* program change */ #define MIDI_CAT 0xd0 /* channel after touch */ #define MIDI_BEND 0xe0 /* pitch bend */ #define MIDI_ACK 0xfe /* active sensing message */ /* * MIDI controller numbers */ #define MIDI_CTL_VOL 7 /* * Max coarse value */ #define MIDI_MAXCTL 127 /* * MIDI status bytes for sysex */ #define MIDI_SX_START 0xf0 #define MIDI_SX_STOP 0xf7 /* * audio device defaults */ #define DEFAULT_RATE 48000 #define DEFAULT_BUFSZ_MS 200 struct slot { struct slot *next; /* next on the play/rec list */ int vol; /* dynamic range */ int volctl; /* volume in the 0..127 range */ struct abuf buf; /* file i/o buffer */ int bpf; /* bytes per frame */ int cmin, cmax; /* file channel range */ struct cmap cmap; /* channel mapper state */ struct resamp resamp; /* resampler state */ struct conv conv; /* format encoder state */ int join; /* channel join factor */ int expand; /* channel expand factor */ void *resampbuf, *convbuf; /* conversion tmp buffers */ int dup; /* mono-to-stereo and alike */ int round; /* slot-side block size */ int mode; /* MODE_{PLAY,REC} */ #define SLOT_CFG 0 /* buffers not allocated yet */ #define SLOT_INIT 1 /* not trying to do anything */ #define SLOT_RUN 2 /* playing/recording */ #define SLOT_STOP 3 /* draining (play only) */ int pstate; /* one of above */ long long skip; /* frames to skip at the beginning */ long long pos; /* start position (at device rate) */ struct afile afile; /* file desc & friends */ }; /* * device properties */ unsigned int dev_mode; /* bitmap of SIO_{PLAY,REC} */ unsigned int dev_bufsz; /* device buffer size */ unsigned int dev_round; /* device block size */ int dev_rate; /* device sample rate (Hz) */ unsigned int dev_pchan, dev_rchan; /* play & rec channels count */ adata_t *dev_pbuf, *dev_rbuf; /* play & rec buffers */ long long dev_pos; /* last MMC position in frames */ #define DEV_STOP 0 /* stopped */ #define DEV_START 1 /* started */ unsigned int dev_pstate; /* one of above */ char *dev_name; /* device sndio(7) name */ char *dev_port; /* control port sndio(7) name */ struct sio_hdl *dev_sh; /* device handle */ struct mio_hdl *dev_mh; /* MIDI control port handle */ unsigned int dev_volctl = MIDI_MAXCTL; /* master volume */ /* * MIDI parser state */ #define MIDI_MSGMAX 32 /* max size of MIDI msg */ unsigned char dev_msg[MIDI_MSGMAX]; /* parsed input message */ unsigned int dev_mst; /* input MIDI running status */ unsigned int dev_mused; /* bytes used in ``msg'' */ unsigned int dev_midx; /* current ``msg'' size */ unsigned int dev_mlen; /* expected ``msg'' length */ unsigned int dev_prime; /* blocks to write to start */ unsigned int log_level = 1; volatile sig_atomic_t quit_flag = 0; struct slot *slot_list = NULL; /* * length of voice and common MIDI 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 }; char usagestr[] = "usage: aucat [-dn] [-b size] " "[-c min:max] [-e enc] [-f device] [-g position]\n\t" "[-h fmt] [-i file] [-j flag] [-o file] [-p position] [-q port]\n\t" "[-r rate] [-v volume]\n"; static void slot_log(struct slot *s) { #ifdef DEBUG static char *pstates[] = { "cfg", "ini", "run", "stp" }; #endif log_puts(s->afile.path); #ifdef DEBUG if (log_level >= 3) { log_puts(",pst="); log_puts(pstates[s->pstate]); } #endif } static void slot_flush(struct slot *s) { int count, n; unsigned char *data; for (;;) { data = abuf_rgetblk(&s->buf, &count); if (count == 0) break; n = afile_write(&s->afile, data, count); if (n == 0) { slot_log(s); log_puts(": can't write, disabled\n"); s->pstate = SLOT_INIT; return; } abuf_rdiscard(&s->buf, n); } } static void slot_fill(struct slot *s) { int count, n; unsigned char *data; for (;;) { data = abuf_wgetblk(&s->buf, &count); if (count == 0) break; n = afile_read(&s->afile, data, count); if (n == 0) { #ifdef DEBUG if (log_level >= 3) { slot_log(s); log_puts(": eof reached, stopping\n"); } #endif s->pstate = SLOT_STOP; break; } abuf_wcommit(&s->buf, n); } } static int slot_new(char *path, int mode, struct aparams *par, int hdr, int cmin, int cmax, int rate, int dup, int vol, long long pos) { struct slot *s; s = xmalloc(sizeof(struct slot)); if (!afile_open(&s->afile, path, hdr, mode == SIO_PLAY ? AFILE_FREAD : AFILE_FWRITE, par, rate, cmax - cmin + 1)) { free(s); return 0; } s->cmin = cmin; s->cmax = cmin + s->afile.nch - 1; s->dup = dup; s->vol = MIDI_TO_ADATA(vol); s->mode = mode; s->pstate = SLOT_CFG; s->pos = pos; if (log_level >= 2) { slot_log(s); log_puts(": "); log_puts(s->mode == SIO_PLAY ? "play" : "rec"); log_puts(", chan "); log_putu(s->cmin); log_puts(":"); log_putu(s->cmax); log_puts(", "); log_putu(s->afile.rate); log_puts("Hz, "); switch (s->afile.fmt) { case AFILE_FMT_PCM: aparams_log(&s->afile.par); break; case AFILE_FMT_ULAW: log_puts("ulaw"); break; case AFILE_FMT_ALAW: log_puts("alaw"); break; case AFILE_FMT_FLOAT: log_puts("f32le"); break; } if (s->mode == SIO_PLAY && s->afile.endpos >= 0) { log_puts(", bytes "); log_puti(s->afile.startpos); log_puts(".."); log_puti(s->afile.endpos); } log_puts("\n"); } s->next = slot_list; slot_list = s; return 1; } static void slot_init(struct slot *s) { unsigned int slot_nch, bufsz; #ifdef DEBUG if (s->pstate != SLOT_CFG) { slot_log(s); log_puts(": slot_init: wrong state\n"); panic(); } #endif s->bpf = s->afile.par.bps * (s->cmax - s->cmin + 1); s->round = (dev_round * s->afile.rate + dev_rate - 1) / dev_rate; bufsz = s->round * (dev_bufsz / dev_round); bufsz -= bufsz % s->round; if (bufsz == 0) bufsz = s->round; abuf_init(&s->buf, bufsz * s->bpf); #ifdef DEBUG if (log_level >= 3) { slot_log(s); log_puts(": allocated "); log_putu(bufsz); log_puts(" frame buffer\n"); } #endif slot_nch = s->cmax - s->cmin + 1; s->convbuf = NULL; s->resampbuf = NULL; s->join = 1; s->expand = 1; if (s->mode & SIO_PLAY) { if (s->dup) { if (dev_pchan > slot_nch) s->expand = dev_pchan / slot_nch; else if (dev_pchan < slot_nch) s->join = slot_nch / dev_pchan; } cmap_init(&s->cmap, s->cmin, s->cmax, s->cmin, s->cmax, 0, dev_pchan - 1, 0, dev_pchan - 1); if (s->afile.fmt != AFILE_FMT_PCM || !aparams_native(&s->afile.par)) { dec_init(&s->conv, &s->afile.par, slot_nch); s->convbuf = xmalloc(s->round * slot_nch * sizeof(adata_t)); } if (s->afile.rate != dev_rate) { resamp_init(&s->resamp, s->afile.rate, dev_rate, slot_nch); s->resampbuf = xmalloc(dev_round * slot_nch * sizeof(adata_t)); } } if (s->mode & SIO_REC) { if (s->dup) { if (dev_rchan > slot_nch) s->join = dev_rchan / slot_nch; else if (dev_rchan < slot_nch) s->expand = slot_nch / dev_rchan; } cmap_init(&s->cmap, 0, dev_rchan - 1, 0, dev_rchan - 1, s->cmin, s->cmax, s->cmin, s->cmax); if (s->afile.rate != dev_rate) { resamp_init(&s->resamp, dev_rate, s->afile.rate, slot_nch); s->resampbuf = xmalloc(dev_round * slot_nch * sizeof(adata_t)); } if (!aparams_native(&s->afile.par)) { enc_init(&s->conv, &s->afile.par, slot_nch); s->convbuf = xmalloc(s->round * slot_nch * sizeof(adata_t)); } } s->pstate = SLOT_INIT; #ifdef DEBUG if (log_level >= 3) { slot_log(s); log_puts(": chain initialized\n"); } #endif } static void slot_start(struct slot *s, long long pos) { #ifdef DEBUG if (s->pstate != SLOT_INIT) { slot_log(s); log_puts(": slot_start: wrong state\n"); panic(); } #endif pos -= s->pos; if (pos < 0) { s->skip = -pos; pos = 0; } else s->skip = 0; /* * convert pos to slot sample rate * * At this stage, we could adjust s->resamp.diff to get * sub-frame accuracy. */ pos = pos * s->afile.rate / dev_rate; if (!afile_seek(&s->afile, pos * s->bpf)) { s->pstate = SLOT_INIT; return; } s->pstate = SLOT_RUN; if (s->mode & SIO_PLAY) slot_fill(s); #ifdef DEBUG if (log_level >= 2) { slot_log(s); log_puts(": started\n"); } #endif } static void slot_stop(struct slot *s) { if (s->pstate == SLOT_INIT) return; if (s->mode & SIO_REC) slot_flush(s); if (s->mode & SIO_PLAY) s->buf.used = s->buf.start = 0; s->pstate = SLOT_INIT; #ifdef DEBUG if (log_level >= 2) { slot_log(s); log_puts(": stopped\n"); } #endif } static void slot_del(struct slot *s) { struct slot **ps; if (s->pstate != SLOT_CFG) { slot_stop(s); afile_close(&s->afile); #ifdef DEBUG if (log_level >= 3) { slot_log(s); log_puts(": closed\n"); } #endif abuf_done(&s->buf); if (s->resampbuf) free(s->resampbuf); if (s->convbuf) free(s->convbuf); } for (ps = &slot_list; *ps != s; ps = &(*ps)->next) ; /* nothing */ *ps = s->next; free(s); } static void slot_getcnt(struct slot *s, int *icnt, int *ocnt) { int cnt; if (s->resampbuf) resamp_getcnt(&s->resamp, icnt, ocnt); else { cnt = (*icnt < *ocnt) ? *icnt : *ocnt; *icnt = cnt; *ocnt = cnt; } } static void play_filt_resamp(struct slot *s, void *res_in, void *out, int icnt, int ocnt) { int i, offs, vol, nch; void *in; if (s->resampbuf) { resamp_do(&s->resamp, res_in, s->resampbuf, icnt, ocnt); in = s->resampbuf; } else in = res_in; nch = s->cmap.nch; vol = s->vol / s->join; /* XXX */ cmap_add(&s->cmap, in, out, vol, ocnt); offs = 0; for (i = s->join - 1; i > 0; i--) { offs += nch; cmap_add(&s->cmap, (adata_t *)in + offs, out, vol, ocnt); } offs = 0; for (i = s->expand - 1; i > 0; i--) { offs += nch; cmap_add(&s->cmap, in, (adata_t *)out + offs, vol, ocnt); } } static void play_filt_dec(struct slot *s, void *in, void *out, int icnt, int ocnt) { void *tmp; tmp = s->convbuf; if (tmp) { switch (s->afile.fmt) { case AFILE_FMT_PCM: dec_do(&s->conv, in, tmp, icnt); break; case AFILE_FMT_ULAW: dec_do_ulaw(&s->conv, in, tmp, icnt, 0); break; case AFILE_FMT_ALAW: dec_do_ulaw(&s->conv, in, tmp, icnt, 1); break; case AFILE_FMT_FLOAT: dec_do_float(&s->conv, in, tmp, icnt); break; } } else tmp = in; play_filt_resamp(s, tmp, out, icnt, ocnt); } /* * Mix as many as possible frames (but not more than a block) from the * slot buffer to the given location. Return the number of frames mixed * in the output buffer */ static int slot_mix_badd(struct slot *s, adata_t *odata) { adata_t *idata; int len, icnt, ocnt, otodo, odone; odone = 0; otodo = dev_round; if (s->skip > 0) { ocnt = otodo; if (ocnt > s->skip) ocnt = s->skip; s->skip -= ocnt; odata += dev_pchan * ocnt; otodo -= ocnt; odone += ocnt; } while (otodo > 0) { idata = (adata_t *)abuf_rgetblk(&s->buf, &len); icnt = len / s->bpf; if (icnt > s->round) icnt = s->round; ocnt = otodo; slot_getcnt(s, &icnt, &ocnt); if (icnt == 0) break; play_filt_dec(s, idata, odata, icnt, ocnt); abuf_rdiscard(&s->buf, icnt * s->bpf); otodo -= ocnt; odone += ocnt; odata += ocnt * dev_pchan; } return odone; } static void rec_filt_resamp(struct slot *s, void *in, void *res_out, int icnt, int ocnt) { int i, vol, offs, nch; void *out = res_out; out = (s->resampbuf) ? s->resampbuf : res_out; nch = s->cmap.nch; vol = ADATA_UNIT / s->join; cmap_copy(&s->cmap, in, out, vol, icnt); offs = 0; for (i = s->join - 1; i > 0; i--) { offs += nch; cmap_add(&s->cmap, (adata_t *)in + offs, out, vol, icnt); } offs = 0; for (i = s->expand - 1; i > 0; i--) { offs += nch; cmap_copy(&s->cmap, in, (adata_t *)out + offs, vol, icnt); } if (s->resampbuf) resamp_do(&s->resamp, s->resampbuf, res_out, icnt, ocnt); else ocnt = icnt; } static void rec_filt_enc(struct slot *s, void *in, void *out, int icnt, int ocnt) { void *tmp; tmp = s->convbuf; rec_filt_resamp(s, in, tmp ? tmp : out, icnt, ocnt); if (tmp) enc_do(&s->conv, tmp, out, ocnt); } /* * Copy "todo" frames from the given buffer to the slot buffer, * but not more than a block. */ static void slot_sub_bcopy(struct slot *s, adata_t *idata, int itodo) { adata_t *odata; int len, icnt, ocnt; if (s->skip > 0) { icnt = itodo; if (icnt > s->skip) icnt = s->skip; s->skip -= icnt; idata += dev_rchan * icnt; itodo -= icnt; } while (itodo > 0) { odata = (adata_t *)abuf_wgetblk(&s->buf, &len); ocnt = len / s->bpf; if (ocnt > s->round) ocnt = s->round; icnt = itodo; slot_getcnt(s, &icnt, &ocnt); if (ocnt == 0) break; rec_filt_enc(s, idata, odata, icnt, ocnt); abuf_wcommit(&s->buf, ocnt * s->bpf); itodo -= icnt; idata += icnt * dev_rchan; } } static int dev_open(char *dev, int mode, int bufsz, char *port) { int rate, pmax, rmax; struct sio_par par; struct slot *s; if (port) { dev_port = port; dev_mh = mio_open(dev_port, MIO_IN, 0); if (dev_mh == NULL) { log_puts(port); log_puts(": couldn't open midi port\n"); return 0; } } else dev_mh = NULL; dev_name = dev; dev_sh = sio_open(dev, mode, 0); if (dev_sh == NULL) { log_puts(dev_name); log_puts(": couldn't open audio device\n"); return 0; } rate = pmax = rmax = 0; for (s = slot_list; s != NULL; s = s->next) { if (s->afile.rate > rate) rate = s->afile.rate; if (s->mode == SIO_PLAY) { if (s->cmax > pmax) pmax = s->cmax; } if (s->mode == SIO_REC) { if (s->cmax > rmax) rmax = s->cmax; } } sio_initpar(&par); par.bits = ADATA_BITS; par.bps = sizeof(adata_t); par.msb = 0; par.le = SIO_LE_NATIVE; par.rate = rate; if (mode & SIO_PLAY) par.pchan = pmax + 1; if (mode & SIO_REC) par.rchan = rmax + 1; par.appbufsz = bufsz > 0 ? bufsz : rate * DEFAULT_BUFSZ_MS / 1000; if (!sio_setpar(dev_sh, &par) || !sio_getpar(dev_sh, &par)) { log_puts(dev_name); log_puts(": couldn't set audio params\n"); return 0; } if (par.bits != ADATA_BITS || par.bps != sizeof(adata_t) || (par.bps > 1 && par.le != SIO_LE_NATIVE) || (par.bps * 8 > par.bits && par.msb)) { log_puts(dev_name); log_puts(": unsupported audio params\n"); return 0; } dev_mode = mode; dev_rate = par.rate; dev_bufsz = par.bufsz; dev_round = par.round; if (mode & SIO_PLAY) { dev_pchan = par.pchan; dev_pbuf = xmalloc(sizeof(adata_t) * dev_pchan * dev_round); } if (mode & SIO_REC) { dev_rchan = par.rchan; dev_rbuf = xmalloc(sizeof(adata_t) * dev_rchan * dev_round); } dev_pstate = DEV_STOP; if (log_level >= 2) { log_puts(dev_name); log_puts(": "); log_putu(dev_rate); log_puts("Hz"); if (dev_mode & SIO_PLAY) { log_puts(", play 0:"); log_puti(dev_pchan - 1); } if (dev_mode & SIO_REC) { log_puts(", rec 0:"); log_puti(dev_rchan - 1); } log_puts(", "); log_putu(dev_bufsz / dev_round); log_puts(" blocks of "); log_putu(dev_round); log_puts(" frames\n"); } return 1; } static void dev_close(void) { sio_close(dev_sh); if (dev_mh) mio_close(dev_mh); if (dev_mode & SIO_PLAY) free(dev_pbuf); if (dev_mode & SIO_REC) free(dev_rbuf); } static void dev_master(int val) { struct slot *s; int mastervol, slotvol; mastervol = MIDI_TO_ADATA(dev_volctl); for (s = slot_list; s != NULL; s = s->next) { slotvol = MIDI_TO_ADATA(val); s->vol = ADATA_MUL(mastervol, slotvol); } #ifdef DEBUG if (log_level >= 3) { log_puts("master volume set to "); log_putu(val); log_puts("\n"); } #endif } static void dev_slotvol(int midich, int val) { struct slot *s; int mastervol, slotvol; for (s = slot_list; s != NULL; s = s->next) { if (midich == 0) { mastervol = MIDI_TO_ADATA(dev_volctl); slotvol = MIDI_TO_ADATA(val); s->vol = ADATA_MUL(mastervol, slotvol); #ifdef DEBUG if (log_level >= 3) { slot_log(s); log_puts(": volume set to "); log_putu(val); log_puts("\n"); } #endif break; } } } /* * start all slots simultaneously */ static void dev_mmcstart(void) { struct slot *s; if (dev_pstate == DEV_STOP) { dev_pstate = DEV_START; for (s = slot_list; s != NULL; s = s->next) slot_start(s, dev_pos); dev_prime = (dev_mode & SIO_PLAY) ? dev_bufsz / dev_round : 0; sio_start(dev_sh); if (log_level >= 2) log_puts("started\n"); } else { #ifdef DEBUG if (log_level >= 3) log_puts("ignoring mmc start\n"); #endif } } /* * stop all slots simultaneously */ static void dev_mmcstop(void) { struct slot *s; if (dev_pstate == DEV_START) { dev_pstate = DEV_STOP; for (s = slot_list; s != NULL; s = s->next) slot_stop(s); sio_stop(dev_sh); if (log_level >= 2) log_puts("stopped\n"); } else { #ifdef DEBUG if (log_level >= 3) log_puts("ignored mmc stop\n"); #endif } } /* * relocate all slots simultaneously */ static void dev_mmcloc(int hr, int min, int sec, int fr, int cent, int fps) { long long pos; pos = dev_rate * hr * 3600 + dev_rate * min * 60 + dev_rate * sec + dev_rate * fr / fps + dev_rate * cent / (100 * fps); if (dev_pos == pos) return; dev_pos = pos; if (log_level >= 2) { log_puts("relocated to "); log_putu(hr); log_puts(":"); log_putu(min); log_puts(":"); log_putu(sec); log_puts("."); log_putu(fr); log_puts("."); log_putu(cent); log_puts(" at "); log_putu(fps); log_puts("fps\n"); } if (dev_pstate == DEV_START) { dev_mmcstop(); dev_mmcstart(); } } static void dev_imsg(unsigned char *msg, unsigned int len) { struct sysex *x; unsigned int fps, chan; if ((msg[0] & MIDI_CMDMASK) == MIDI_CTL && msg[1] == MIDI_CTL_VOL) { chan = msg[0] & MIDI_CHANMASK; dev_slotvol(chan, msg[2]); return; } x = (struct sysex *)msg; if (x->start != SYSEX_START) return; if (len < SYSEX_SIZE(empty)) return; if (x->type != SYSEX_TYPE_RT) return; if (x->id0 == SYSEX_CONTROL && x->id1 == SYSEX_MASTER) { if (len == SYSEX_SIZE(master)) dev_master(x->u.master.coarse); return; } if (x->id0 != SYSEX_MMC) return; switch (x->id1) { case SYSEX_MMC_STOP: if (len != SYSEX_SIZE(stop)) return; dev_mmcstop(); break; case SYSEX_MMC_START: if (len != SYSEX_SIZE(start)) return; dev_mmcstart(); 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; 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: dev_mmcstop(); return; } dev_mmcloc(x->u.loc.hr & 0x1f, x->u.loc.min, x->u.loc.sec, x->u.loc.fr, x->u.loc.cent, fps); break; } } /* * parse the given data chunk and call imsg() for each message */ static void midi_in(unsigned char *idata, int icount) { int i; unsigned char c; for (i = 0; i < icount; i++) { c = *idata++; if (c >= 0xf8) { /* we don't use real-time events */ } else if (c == SYSEX_END) { if (dev_mst == SYSEX_START) { dev_msg[dev_midx++] = c; dev_imsg(dev_msg, dev_midx); } dev_mst = 0; dev_midx = 0; } else if (c >= 0xf0) { dev_msg[0] = c; dev_mlen = common_len[c & 7]; dev_mst = c; dev_midx = 1; } else if (c >= 0x80) { dev_msg[0] = c; dev_mlen = voice_len[(c >> 4) & 7]; dev_mst = c; dev_midx = 1; } else if (dev_mst) { if (dev_midx == 0 && dev_mst != SYSEX_START) dev_msg[dev_midx++] = dev_mst; dev_msg[dev_midx++] = c; if (dev_midx == dev_mlen) { dev_imsg(dev_msg, dev_midx); if (dev_mst >= 0xf0) dev_mst = 0; dev_midx = 0; } else if (dev_midx == MIDI_MSGMAX) { /* sysex too long */ dev_mst = 0; } } } } static int slot_list_mix(unsigned int round, unsigned int pchan, adata_t *pbuf) { unsigned int done, n; struct slot *s; memset(pbuf, 0, pchan * round * sizeof(adata_t)); done = 0; for (s = slot_list; s != NULL; s = s->next) { if (s->pstate == SLOT_INIT || !(s->mode & SIO_PLAY)) continue; if (s->pstate == SLOT_STOP && s->buf.used < s->bpf) { #ifdef DEBUG if (log_level >= 3) { slot_log(s); log_puts(": drained, done\n"); } #endif slot_stop(s); continue; } n = slot_mix_badd(s, dev_pbuf); if (n > done) done = n; } return done; } static int slot_list_copy(unsigned int count, unsigned int rchan, adata_t *rbuf) { unsigned int done; struct slot *s; done = 0; for (s = slot_list; s != NULL; s = s->next) { if (s->pstate == SLOT_INIT || !(s->mode & SIO_REC)) continue; slot_sub_bcopy(s, rbuf, count); done = count; } return done; } static void slot_list_iodo(void) { struct slot *s; for (s = slot_list; s != NULL; s = s->next) { if (s->pstate != SLOT_RUN) continue; if ((s->mode & SIO_PLAY) && (s->buf.used < s->round * s->bpf)) slot_fill(s); if ((s->mode & SIO_REC) && (s->buf.len - s->buf.used < s->round * s->bpf)) slot_flush(s); } } static int offline(void) { unsigned int todo; int rate, cmax; struct slot *s; rate = cmax = 0; for (s = slot_list; s != NULL; s = s->next) { if (s->afile.rate > rate) rate = s->afile.rate; if (s->cmax > cmax) cmax = s->cmax; } dev_sh = NULL; dev_name = "offline"; dev_mode = SIO_PLAY | SIO_REC; dev_rate = rate; dev_bufsz = rate; dev_round = rate; dev_pchan = dev_rchan = cmax + 1; dev_pbuf = dev_rbuf = xmalloc(sizeof(adata_t) * dev_pchan * dev_round); dev_pstate = DEV_STOP; for (s = slot_list; s != NULL; s = s->next) slot_init(s); for (s = slot_list; s != NULL; s = s->next) slot_start(s, 0); for (;;) { todo = slot_list_mix(dev_round, dev_pchan, dev_pbuf); if (todo == 0) break; slot_list_copy(todo, dev_pchan, dev_pbuf); slot_list_iodo(); } free(dev_pbuf); while (slot_list) slot_del(slot_list); return 1; } static int playrec_cycle(void) { unsigned int n, todo; unsigned char *p; int pcnt, rcnt; #ifdef DEBUG if (log_level >= 4) { log_puts(dev_name); log_puts(": cycle, prime = "); log_putu(dev_prime); log_puts("\n"); } #endif pcnt = rcnt = 0; if (dev_mode & SIO_REC) { if (dev_prime > 0) dev_prime--; else { todo = dev_round * dev_rchan * sizeof(adata_t); p = (unsigned char *)dev_rbuf; while (todo > 0) { n = sio_read(dev_sh, p, todo); if (n == 0) { log_puts(dev_name); log_puts(": failed to read " "from device\n"); return 0; } p += n; todo -= n; } rcnt = slot_list_copy(dev_round, dev_rchan, dev_rbuf); } } if (dev_mode & SIO_PLAY) { pcnt = slot_list_mix(dev_round, dev_pchan, dev_pbuf); todo = sizeof(adata_t) * dev_pchan * dev_round; n = sio_write(dev_sh, dev_pbuf, todo); if (n == 0) { log_puts(dev_name); log_puts(": failed to write to device\n"); return 0; } } slot_list_iodo(); return pcnt > 0 || rcnt > 0; } static void sigint(int s) { if (quit_flag) _exit(1); quit_flag = 1; } static int playrec(char *dev, int mode, int bufsz, char *port) { #define MIDIBUFSZ 0x100 unsigned char mbuf[MIDIBUFSZ]; struct sigaction sa; struct pollfd *pfds; struct slot *s; int n, ns, nm, ev; if (!dev_open(dev, mode, bufsz, port)) return 0; n = sio_nfds(dev_sh); if (dev_mh) n += mio_nfds(dev_mh); pfds = xmalloc(n * sizeof(struct pollfd)); for (s = slot_list; s != NULL; s = s->next) slot_init(s); if (dev_mh == NULL) dev_mmcstart(); else { if (log_level >= 2) log_puts("ready, waiting for mmc messages\n"); } quit_flag = 0; sigfillset(&sa.sa_mask); sa.sa_flags = SA_RESTART; sa.sa_handler = sigint; sigaction(SIGINT, &sa, NULL); sigaction(SIGTERM, &sa, NULL); sigaction(SIGHUP, &sa, NULL); while (!quit_flag) { if (dev_pstate == DEV_START) { ev = 0; if (mode & SIO_PLAY) ev |= POLLOUT; if (mode & SIO_REC) ev |= POLLIN; ns = sio_pollfd(dev_sh, pfds, ev); } else ns = 0; if (dev_mh) nm = mio_pollfd(dev_mh, pfds + ns, POLLIN); else nm = 0; if (poll(pfds, ns + nm, -1) < 0) { if (errno == EINTR) continue; log_puts("poll failed\n"); panic(); } if (dev_pstate == DEV_START) { ev = sio_revents(dev_sh, pfds); if (ev & POLLHUP) { log_puts(dev); log_puts(": audio device gone, stopping\n"); break; } if (ev & (POLLIN | POLLOUT)) { if (!playrec_cycle() && dev_mh == NULL) break; } } if (dev_mh) { ev = mio_revents(dev_mh, pfds + ns); if (ev & POLLHUP) { log_puts(dev_port); log_puts(": midi port gone, stopping\n"); break; } if (ev & POLLIN) { n = mio_read(dev_mh, mbuf, MIDIBUFSZ); midi_in(mbuf, n); } } } sigfillset(&sa.sa_mask); sa.sa_flags = SA_RESTART; sa.sa_handler = SIG_DFL; sigaction(SIGINT, &sa, NULL); sigaction(SIGTERM, &sa, NULL); sigaction(SIGHUP, &sa, NULL); if (dev_pstate == DEV_START) dev_mmcstop(); free(pfds); dev_close(); while (slot_list) slot_del(slot_list); return 1; } static int opt_onoff(char *s, int *flag) { if (strcmp("off", s) == 0) { *flag = 0; return 1; } if (strcmp("on", s) == 0) { *flag = 1; return 1; } log_puts(s); log_puts(": on/off expected\n"); return 0; } static int opt_enc(char *s, struct aparams *par) { int len; len = aparams_strtoenc(par, s); if (len == 0 || s[len] != '\0') { log_puts(s); log_puts(": bad encoding\n"); return 0; } return 1; } static int opt_hdr(char *s, int *hdr) { if (strcmp("auto", s) == 0) { *hdr = AFILE_HDR_AUTO; return 1; } if (strcmp("raw", s) == 0) { *hdr = AFILE_HDR_RAW; return 1; } if (strcmp("wav", s) == 0) { *hdr = AFILE_HDR_WAV; return 1; } if (strcmp("aiff", s) == 0) { *hdr = AFILE_HDR_AIFF; return 1; } if (strcmp("au", s) == 0) { *hdr = AFILE_HDR_AU; return 1; } log_puts(s); log_puts(": bad header type\n"); return 0; } static int opt_ch(char *s, int *rcmin, int *rcmax) { char *next, *end; long cmin, cmax; errno = 0; cmin = strtol(s, &next, 10); if (next == s || *next != ':') goto failed; cmax = strtol(++next, &end, 10); if (end == next || *end != '\0') goto failed; if (cmin < 0 || cmax < cmin || cmax >= NCHAN_MAX) goto failed; *rcmin = cmin; *rcmax = cmax; return 1; failed: log_puts(s); log_puts(": channel range expected\n"); return 0; } static int opt_num(char *s, int min, int max, int *num) { const char *errstr; *num = strtonum(s, min, max, &errstr); if (errstr) { log_puts(s); log_puts(": expected integer between "); log_puti(min); log_puts(" and "); log_puti(max); log_puts("\n"); return 0; } return 1; } static int opt_pos(char *s, long long *pos) { const char *errstr; *pos = strtonum(s, 0, LLONG_MAX, &errstr); if (errstr) { log_puts(s); log_puts(": positive number of samples expected\n"); return 0; } return 1; } int main(int argc, char **argv) { int dup, cmin, cmax, rate, vol, bufsz, hdr, mode; char *port, *dev; struct aparams par; int n_flag, c; long long pos; vol = 127; dup = 0; bufsz = 0; rate = DEFAULT_RATE; cmin = 0; cmax = 1; aparams_init(&par); hdr = AFILE_HDR_AUTO; n_flag = 0; port = NULL; dev = NULL; mode = 0; pos = 0; while ((c = getopt(argc, argv, "b:c:de:f:g:h:i:j:no:p:q:r:t:v:")) != -1) { switch (c) { case 'b': if (!opt_num(optarg, 1, RATE_MAX, &bufsz)) return 1; break; case 'c': if (!opt_ch(optarg, &cmin, &cmax)) return 1; break; case 'd': log_level++; break; case 'e': if (!opt_enc(optarg, &par)) return 1; break; case 'f': dev = optarg; break; case 'g': if (!opt_pos(optarg, &dev_pos)) return 1; break; case 'h': if (!opt_hdr(optarg, &hdr)) return 1; break; case 'i': if (!slot_new(optarg, SIO_PLAY, &par, hdr, cmin, cmax, rate, dup, vol, pos)) return 1; mode |= SIO_PLAY; break; case 'j': if (!opt_onoff(optarg, &dup)) return 1; break; case 'n': n_flag = 1; break; case 'o': if (!slot_new(optarg, SIO_REC, &par, hdr, cmin, cmax, rate, dup, 0, pos)) return 1; mode |= SIO_REC; break; case 'p': if (!opt_pos(optarg, &pos)) return 1; break; case 'q': port = optarg; break; case 'r': if (!opt_num(optarg, RATE_MIN, RATE_MAX, &rate)) return 1; break; case 'v': if (!opt_num(optarg, 0, MIDI_MAXCTL, &vol)) return 1; break; default: goto bad_usage; } } argc -= optind; argv += optind; if (argc != 0) { bad_usage: log_puts(usagestr); return 1; } if (n_flag) { if (dev != NULL || port != NULL) { log_puts("-f and -q make no sense in off-line mode\n"); return 1; } if (mode != (SIO_PLAY | SIO_REC)) { log_puts("both -i and -o required\n"); return 1; } if (!offline()) return 1; } else { if (dev == NULL) dev = SIO_DEVANY; if (mode == 0) { log_puts("at least -i or -o required\n"); return 1; } if (!playrec(dev, mode, bufsz, port)) return 1; } return 0; }