ref: 6bb619c8db2867ddd9cd19c0aec05065f5ee0cae
dir: /emu/port/devaudio.c/
#include "dat.h" #include "fns.h" #include "error.h" #include "audio.h" Dirtab audiotab[] = { ".", {Qdir, 0, QTDIR}, 0, 0555, "audio", {Qaudio}, 0, 0666, "audioctl", {Qaudioctl}, 0, 0666, }; static void audioinit(void) { audio_file_init(); } static Chan* audioattach(char *spec) { return devattach('A', spec); } static Walkqid* audiowalk(Chan *c, Chan *nc, char **name, int nname) { return devwalk(c, nc, name, nname, audiotab, nelem(audiotab), devgen); } static int audiostat(Chan *c, uchar *db, int n) { return devstat(c, db, n, audiotab, nelem(audiotab), devgen); } static Chan* audioopen(Chan *c, int omode) { c = devopen(c, omode, audiotab, nelem(audiotab), devgen); if(waserror()){ c->flag &= ~COPEN; nexterror(); } switch(c->qid.path) { case Qdir: case Qaudioctl: break; case Qaudio: audio_file_open(c, c->mode); break; default: error(Egreg); } poperror(); return c; } static void audioclose(Chan *c) { if((c->flag & COPEN) == 0) return; switch(c->qid.path) { case Qdir: case Qaudioctl: break; case Qaudio: audio_file_close(c); break; default: error(Egreg); } } static int ctlsummary(char*, int, Audio_t*); static long audioread(Chan *c, void *va, long count, vlong offset) { char *buf; int n; if(c->qid.type & QTDIR) return devdirread(c, va, count, audiotab, nelem(audiotab), devgen); switch(c->qid.path) { case Qaudio: return audio_file_read(c, va, count, offset); case Qaudioctl: buf = smalloc(READSTR); if(waserror()){ free(buf); nexterror(); } n = ctlsummary(buf, READSTR, getaudiodev()); count = readstr(offset, va, n, buf); poperror(); free(buf); return count; } return 0; } static long audiowrite(Chan *c, void *va, long count, vlong offset) { switch(c->qid.path) { case Qaudio: return audio_file_write(c, va, count, offset); case Qaudioctl: return audio_ctl_write(c, va, count, offset); } return 0; } static int sval(char*, unsigned long*, ulong, ulong); static int str2val(svp_t*, char*, ulong*); static char* val2str(svp_t*, ulong); int audioparse(char* args, int len, Audio_t *t) { int i, n; ulong v; Cmdbuf *cb; ulong tf; Audio_t info = *t; cb = parsecmd(args, len); if(waserror()){ free(cb); return 0; } tf = 0; n = cb->nf; for(i = 0; i < cb->nf-1; i++) { if(strcmp(cb->f[i], "in") == 0){ tf |= AUDIO_IN_FLAG; continue; } if(strcmp(cb->f[i], "out") == 0) { tf |= AUDIO_OUT_FLAG; continue; } if(tf == 0) tf = AUDIO_IN_FLAG | AUDIO_OUT_FLAG; if(strcmp(cb->f[i], "bits") == 0) { if(!str2val(audio_bits_tbl, cb->f[i+1], &v)) break; i++; if(tf & AUDIO_IN_FLAG) { info.in.flags |= AUDIO_BITS_FLAG | AUDIO_MOD_FLAG; info.in.bits = v; } if(tf & AUDIO_OUT_FLAG) { info.out.flags |= AUDIO_BITS_FLAG | AUDIO_MOD_FLAG; info.out.bits = v; } } else if(strcmp(cb->f[i], "buf") == 0) { if(!sval(cb->f[i+1], &v, Audio_Max_Val, Audio_Min_Val)) break; i++; if(tf & AUDIO_IN_FLAG) { info.in.flags |= AUDIO_BUF_FLAG | AUDIO_MOD_FLAG; info.in.buf = v; } if(tf & AUDIO_OUT_FLAG) { info.out.flags |= AUDIO_BUF_FLAG | AUDIO_MOD_FLAG; info.out.buf = v; } } else if(strcmp(cb->f[i], "chans") == 0) { if(!str2val(audio_chan_tbl, cb->f[i+1], &v)) break; i++; if(tf & AUDIO_IN_FLAG) { info.in.flags |= AUDIO_CHAN_FLAG | AUDIO_MOD_FLAG; info.in.chan = v; } if(tf & AUDIO_OUT_FLAG) { info.out.flags |= AUDIO_CHAN_FLAG | AUDIO_MOD_FLAG; info.out.chan = v; } } else if(strcmp(cb->f[i], "indev") == 0) { if(!str2val(audio_indev_tbl, cb->f[i+1], &v)) break; i++; info.in.flags |= AUDIO_DEV_FLAG | AUDIO_MOD_FLAG; info.in.dev = v; } else if(strcmp(cb->f[i], "outdev") == 0) { if(!str2val(audio_outdev_tbl, cb->f[i+1], &v)) break; i++; info.out.flags |= AUDIO_DEV_FLAG | AUDIO_MOD_FLAG; info.out.dev = v; } else if(strcmp(cb->f[i], "enc") == 0) { if(!str2val(audio_enc_tbl, cb->f[i+1], &v)) break; i++; if(tf & AUDIO_IN_FLAG) { info.in.flags |= AUDIO_ENC_FLAG | AUDIO_MOD_FLAG; info.in.enc = v; } if(tf & AUDIO_OUT_FLAG) { info.out.flags |= AUDIO_ENC_FLAG | AUDIO_MOD_FLAG; info.out.enc = v; } } else if(strcmp(cb->f[i], "rate") == 0) { if(!str2val(audio_rate_tbl, cb->f[i+1], &v)) break; i++; if(tf & AUDIO_IN_FLAG) { info.in.flags |= AUDIO_RATE_FLAG | AUDIO_MOD_FLAG; info.in.rate = v; } if(tf & AUDIO_OUT_FLAG) { info.out.flags |= AUDIO_RATE_FLAG | AUDIO_MOD_FLAG; info.out.rate = v; } } else if(strcmp(cb->f[i], "vol") == 0) { if(!sval(cb->f[i+1], &v, Audio_Max_Val, Audio_Min_Val)) break; i++; if(tf & AUDIO_IN_FLAG) { info.in.flags |= AUDIO_VOL_FLAG | AUDIO_MOD_FLAG; info.in.left = v; info.in.right = v; } if(tf & AUDIO_OUT_FLAG) { info.out.flags |= AUDIO_VOL_FLAG | AUDIO_MOD_FLAG; info.out.left = v; info.out.right = v; } } else if(strcmp(cb->f[i], "left") == 0) { if(!sval(cb->f[i+1], &v, Audio_Max_Val, Audio_Min_Val)) break; i++; if(tf & AUDIO_IN_FLAG) { info.in.flags |= AUDIO_LEFT_FLAG | AUDIO_MOD_FLAG; info.in.left = v; } if(tf & AUDIO_OUT_FLAG) { info.out.flags |= AUDIO_LEFT_FLAG | AUDIO_MOD_FLAG; info.out.left = v; } } else if(strcmp(cb->f[i], "right") == 0) { if(!sval(cb->f[i+1], &v, Audio_Max_Val, Audio_Min_Val)) break; i++; if(tf & AUDIO_IN_FLAG) { info.in.flags |= AUDIO_RIGHT_FLAG | AUDIO_MOD_FLAG; info.in.right = v; } if(tf & AUDIO_OUT_FLAG) { info.out.flags |= AUDIO_RIGHT_FLAG | AUDIO_MOD_FLAG; info.out.right = v; } }else break; } poperror(); free(cb); if(i < n) return 0; *t = info; /* set information back */ return 1; } static char* audioparam(char* p, char* e, char* name, int val, svp_t* tbl) { char *s; svp_t *sv; if((s = val2str(tbl, val)) != nil){ p = seprint(p, e, "%s %s", name, s); /* current setting */ for(sv = tbl; sv->s != nil; sv++) if(sv->v != val) p = seprint(p, e, " %s", sv->s); /* other possible values */ p = seprint(p, e, "\n"); }else p = seprint(p, e, "%s unknown\n", name); return p; } static char* audioioparam(char* p, char* e, char* name, int ival, int oval, svp_t* tbl) { if(ival == oval) return audioparam(p, e, name, ival, tbl); p = audioparam(seprint(p, e, "in "), e, name, ival, tbl); p = audioparam(seprint(p, e, "out "), e, name, oval, tbl); return p; } static int ctlsummary(char *buf, int bsize, Audio_t *adev) { Audio_d *in, *out; char *p, *e; in = &adev->in; out = &adev->out; p = buf; e = p + bsize; p = audioparam(p, e, "indev", in->dev, audio_indev_tbl); p = audioparam(p, e, "outdev", out->dev, audio_outdev_tbl); p = audioioparam(p, e, "enc", in->enc, out->enc, audio_enc_tbl); p = audioioparam(p, e, "rate", in->rate, out->rate, audio_rate_tbl); p = audioioparam(p, e, "bits", in->bits, out->bits, audio_bits_tbl); /* this one is silly */ p = audioioparam(p, e, "chans", in->chan, out->chan, audio_chan_tbl); /* TO DO: minimise in/out left/right where possible */ if(in->left != in->right){ p = seprint(p, e, "in left %d 0 100\n", in->left); p = seprint(p, e, "in right %d 0 100\n", in->right); }else p = seprint(p, e, "in %d 0 100\n", in->right); if(out->left != out->right){ p = seprint(p, e, "out left %d 0 100\n", out->left); p = seprint(p, e, "out right %d 0 100\n", out->right); }else p = seprint(p, e, "out %d 0 100\n", out->right); p = seprint(p, e, "in buf %d %d %d\n", in->buf, Audio_Min_Val, Audio_Max_Val); p = seprint(p, e, "out buf %d %d %d\n", out->buf, Audio_Min_Val, Audio_Max_Val); return p-buf; } void audio_info_init(Audio_t *t) { t->in = Default_Audio_Format; t->in.dev = Default_Audio_Input; t->out = Default_Audio_Format; t->out.dev = Default_Audio_Output; } static int str2val(svp_t* t, char* s, ulong *v) { if(t == nil || s == nil) return 0; for(; t->s != nil; t++) { if(strncmp(t->s, s, strlen(t->s)) == 0) { *v = t->v; return 1; } } return 0; } static char* val2str(svp_t* t, ulong v) { if(t == nil) return nil; for(; t->s != nil; t++) if(t->v == v) return t->s; return nil; } static int sval(char* buf, ulong* v, ulong max, ulong min) { unsigned long val = strtoul(buf, 0, 10); if(val > max || val < min) return 0; *v = val; return 1; } Dev audiodevtab = { 'A', "audio", audioinit, audioattach, audiowalk, audiostat, audioopen, devcreate, audioclose, audioread, devbread, audiowrite, devbwrite, devremove, devwstat };