/* * SB 16 driver */ #include "u.h" #include "../port/lib.h" #include "mem.h" #include "dat.h" #include "fns.h" #include "../port/error.h" #include "io.h" #include "audio.h" typedef struct AQueue AQueue; typedef struct Buf Buf; enum { Qdir = 0, Qaudio, Qvolume, Qstatus, Fmono = 1, Fin = 2, Fout = 4, Aclosed = 0, Aread, Awrite, Vaudio = 0, Vsynth, Vcd, Vline, Vmic, Vspeaker, Vtreb, Vbass, Vspeed, Nvol, Speed = 44100, Ncmd = 50, /* max volume command words */ }; Dirtab audiodir[] = { ".", {Qdir, 0, QTDIR}, 0, DMDIR|0555, "audio", {Qaudio}, 0, 0666, "volume", {Qvolume}, 0, 0666, "audiostat",{Qstatus}, 0, 0444, }; struct Buf { uchar* virt; uintmem phys; Buf* next; }; struct AQueue { Lock; Buf* first; Buf* last; }; static struct { QLock; Rendez vous; int buffered; /* number of bytes en route */ int bufinit; /* boolean if buffers allocated */ int curcount; /* how much data in current buffer */ int active; /* boolean dma running */ int intr; /* boolean an interrupt has happened */ int amode; /* Aclosed/Aread/Awrite for /audio */ int rivol[Nvol]; /* right/left input/output volumes */ int livol[Nvol]; int rovol[Nvol]; int lovol[Nvol]; int major; /* SB16 major version number (sb 4) */ int minor; /* SB16 minor version number */ ulong totcount; /* how many bytes processed since open */ vlong tottime; /* time at which totcount bytes were processed */ Buf buf[Nbuf]; /* buffers and queues */ AQueue empty; AQueue full; Buf* current; Buf* filling; } audio; static struct { char* name; int flag; int ilval; /* initial values */ int irval; } volumes[] = { [Vaudio] "audio", Fout, 50, 50, [Vsynth] "synth", Fin|Fout, 0, 0, [Vcd] "cd", Fin|Fout, 0, 0, [Vline] "line", Fin|Fout, 0, 0, [Vmic] "mic", Fin|Fout|Fmono, 0, 0, [Vspeaker] "speaker", Fout|Fmono, 0, 0, [Vtreb] "treb", Fout, 50, 50, [Vbass] "bass", Fout, 50, 50, [Vspeed] "speed", Fin|Fout|Fmono, Speed, Speed, 0 }; static struct { Lock; int reset; /* io ports to the sound blaster */ int read; int write; int wstatus; int rstatus; int mixaddr; int mixdata; int clri8; int clri16; int clri401; int dma; void (*startdma)(void); void (*intr)(void); } blaster; static void swab(uchar*); static char Emajor[] = "soundblaster not responding/wrong version"; static char Emode[] = "illegal open mode"; static char Evolume[] = "illegal volume specifier"; static int sbcmd(int val) { int i, s; for(i=1<<16; i!=0; i--) { s = inb(blaster.wstatus); if((s & 0x80) == 0) { outb(blaster.write, val); return 0; } } /* print("#A: sbcmd (%#.2x) timeout\n", val); /**/ return 1; } static int sbread(void) { int i, s; for(i=1<<16; i!=0; i--) { s = inb(blaster.rstatus); if((s & 0x80) != 0) { return inb(blaster.read); } } /* print("#A: sbread did not respond\n"); /**/ return -1; } static int ess1688w(int reg, int val) { if(sbcmd(reg) || sbcmd(val)) return 1; return 0; } static int ess1688r(int reg) { if(sbcmd(0xC0) || sbcmd(reg)) return -1; return sbread(); } static int mxcmd(int addr, int val) { outb(blaster.mixaddr, addr); outb(blaster.mixdata, val); return 1; } static int mxread(int addr) { int s; outb(blaster.mixaddr, addr); s = inb(blaster.mixdata); return s; } static void mxcmds(int s, int v) { if(v > 100) v = 100; if(v < 0) v = 0; mxcmd(s, (v*255)/100); } static void mxcmdt(int s, int v) { if(v > 100) v = 100; if(v <= 0) mxcmd(s, 0); else mxcmd(s, 255-100+v); } static void mxcmdu(int s, int v) { if(v > 100) v = 100; if(v <= 0) v = 0; mxcmd(s, 128-50+v); } static void mxvolume(void) { int *left, *right; int source; if(audio.amode == Aread){ left = audio.livol; right = audio.rivol; }else{ left = audio.lovol; right = audio.rovol; } ilock(&blaster); mxcmd(0x30, 255); /* left master */ mxcmd(0x31, 255); /* right master */ mxcmd(0x3f, 0); /* left igain */ mxcmd(0x40, 0); /* right igain */ mxcmd(0x41, 0); /* left ogain */ mxcmd(0x42, 0); /* right ogain */ mxcmds(0x32, left[Vaudio]); mxcmds(0x33, right[Vaudio]); mxcmds(0x34, left[Vsynth]); mxcmds(0x35, right[Vsynth]); mxcmds(0x36, left[Vcd]); mxcmds(0x37, right[Vcd]); mxcmds(0x38, left[Vline]); mxcmds(0x39, right[Vline]); mxcmds(0x3a, left[Vmic]); mxcmds(0x3b, left[Vspeaker]); mxcmdu(0x44, left[Vtreb]); mxcmdu(0x45, right[Vtreb]); mxcmdu(0x46, left[Vbass]); mxcmdu(0x47, right[Vbass]); source = 0; if(left[Vsynth]) source |= 1<<6; if(right[Vsynth]) source |= 1<<5; if(left[Vaudio]) source |= 1<<4; if(right[Vaudio]) source |= 1<<3; if(left[Vcd]) source |= 1<<2; if(right[Vcd]) source |= 1<<1; if(left[Vmic]) source |= 1<<0; if(audio.amode == Aread) mxcmd(0x3c, 0); /* output switch */ else mxcmd(0x3c, source); mxcmd(0x3d, source); /* input left switch */ mxcmd(0x3e, source); /* input right switch */ iunlock(&blaster); } static Buf* getbuf(AQueue *q) { Buf *b; ilock(q); b = q->first; if(b) q->first = b->next; iunlock(q); return b; } static void putbuf(AQueue *q, Buf *b) { ilock(q); b->next = 0; if(q->first) q->last->next = b; else q->first = b; q->last = b; iunlock(q); } /* * move the dma to the next buffer */ static void contindma(void) { Buf *b; if(!audio.active) goto shutdown; b = audio.current; if(b){ audio.totcount += Bufsize; audio.tottime = todget(nil); } if(audio.amode == Aread) { if(b){ putbuf(&audio.full, b); audio.buffered += Bufsize; } b = getbuf(&audio.empty); } else { if(b){ putbuf(&audio.empty, b); audio.buffered -= Bufsize; } b = getbuf(&audio.full); } audio.current = b; if(b == 0) goto shutdown; if(dmasetup(blaster.dma, b->virt, Bufsize, audio.amode == Aread) >= 0) return; print("#A: dmasetup fail\n"); putbuf(&audio.empty, b); shutdown: dmaend(blaster.dma); sbcmd(0xd9); /* exit at end of count */ sbcmd(0xd5); /* pause */ audio.curcount = 0; audio.active = 0; } /* * cause sb to get an interrupt per buffer. * start first dma */ static void sb16startdma(void) { ulong count; int speed; ilock(&blaster); dmaend(blaster.dma); if(audio.amode == Aread) { sbcmd(0x42); /* input sampling rate */ speed = audio.livol[Vspeed]; } else { sbcmd(0x41); /* output sampling rate */ speed = audio.lovol[Vspeed]; } sbcmd(speed>>8); sbcmd(speed); count = (Bufsize >> 1) - 1; if(audio.amode == Aread) sbcmd(0xbe); /* A/D, autoinit */ else sbcmd(0xb6); /* D/A, autoinit */ sbcmd(0x30); /* stereo, 16 bit */ sbcmd(count); sbcmd(count>>8); audio.active = 1; contindma(); iunlock(&blaster); } static int ess1688reset(void) { int i; outb(blaster.reset, 3); delay(1); /* >3 υs */ outb(blaster.reset, 0); delay(1); i = sbread(); if(i != 0xAA) { print("#A: no response %#.2x\n", i); return 1; } if(sbcmd(0xC6)){ /* extended mode */ print("#A: barf 3\n"); return 1; } return 0; } static void ess1688startdma(void) { ulong count; int speed, x; ilock(&blaster); dmaend(blaster.dma); if(audio.amode == Awrite) ess1688reset(); if(audio.amode == Aread) sbcmd(0xD3); /* speaker off */ /* * Set the speed. */ if(audio.amode == Aread) speed = audio.livol[Vspeed]; else speed = audio.lovol[Vspeed]; if(speed < 4000) speed = 4000; else if(speed > 48000) speed = 48000; if(speed > 22000) x = 0x80|(256-(795500+speed/2)/speed); else x = 128-(397700+speed/2)/speed; ess1688w(0xA1, x & 0xFF); speed = (speed * 9) / 20; x = 256 - 7160000 / (speed * 82); ess1688w(0xA2, x & 0xFF); if(audio.amode == Aread) ess1688w(0xB8, 0x0E); /* A/D, autoinit */ else ess1688w(0xB8, 0x04); /* D/A, autoinit */ x = ess1688r(0xA8) & ~0x03; ess1688w(0xA8, x|0x01); /* 2 channels */ ess1688w(0xB9, 2); /* demand mode, 4 bytes per request */ if(audio.amode == Awrite) ess1688w(0xB6, 0); ess1688w(0xB7, 0x71); ess1688w(0xB7, 0xBC); x = ess1688r(0xB1) & 0x0F; ess1688w(0xB1, x|0x50); x = ess1688r(0xB2) & 0x0F; ess1688w(0xB2, x|0x50); if(audio.amode == Awrite) sbcmd(0xD1); /* speaker on */ count = -Bufsize; ess1688w(0xA4, count & 0xFF); ess1688w(0xA5, (count>>8) & 0xFF); x = ess1688r(0xB8); ess1688w(0xB8, x|0x05); audio.active = 1; contindma(); iunlock(&blaster); } /* * if audio is stopped, * start it up again. */ static void pokeaudio(void) { if(!audio.active) blaster.startdma(); } static void sb16intr(void) { int stat, dummy; stat = mxread(0x82) & 7; /* get irq status */ if(stat) { dummy = 0; if(stat & 2) { ilock(&blaster); dummy = inb(blaster.clri16); contindma(); iunlock(&blaster); audio.intr = 1; wakeup(&audio.vous); } if(stat & 1) { dummy = inb(blaster.clri8); } if(stat & 4) { dummy = inb(blaster.clri401); } USED(dummy); } } static void ess1688intr(void) { int dummy; if(audio.active){ ilock(&blaster); contindma(); dummy = inb(blaster.clri8); iunlock(&blaster); audio.intr = 1; wakeup(&audio.vous); USED(dummy); } else print("#A: unexpected ess1688 interrupt\n"); } void audiosbintr(void) { /* * Carrera interrupt interface. */ blaster.intr(); } static void pcaudiosbintr(Ureg*, void*) { /* * x86 interrupt interface. */ blaster.intr(); } void audiodmaintr(void) { /* print("#A: dma interrupt\n"); /**/ } static int anybuf(void*) { return audio.intr; } /* * wait for some output to get * empty buffers back. */ static void waitaudio(void) { audio.intr = 0; pokeaudio(); tsleep(&audio.vous, anybuf, 0, 10000); if(audio.intr == 0) { /* print("#A: audio timeout\n"); /**/ audio.active = 0; pokeaudio(); } } static void sbbufinit(void) { int i; uchar *p; p = mallocalign(Nbuf*Bufsize, Bufsize, 0, 0); if (p == nil) panic("sbbufinit: no memory"); for(i=0; iirq){ case 2: case 9: i = 0x50|(0<<2); break; case 5: i = 0x50|(1<<2); break; case 7: i = 0x50|(2<<2); break; case 10: i = 0x50|(3<<2); break; default: print("#A: bad ESS1688 irq %d\n", sbconf->irq); return 1; } ess1688w(0xB1, i); switch(sbconf->dma){ case 0: i = 0x50|(1<<2); break; case 1: i = 0xF0|(2<<2); break; case 3: i = 0x50|(3<<2); break; default: print("#A: bad ESS1688 dma %lud\n", sbconf->dma); return 1; } ess1688w(0xB2, i); ess1688reset(); blaster.startdma = ess1688startdma; blaster.intr = ess1688intr; return 0; } static void audioinit(void) { ISAConf sbconf; int i, x; static int irq[] = {2,5,7,10}; sbconf.port = 0x220; sbconf.dma = Dma; sbconf.irq = IrqAUDIO; if(isaconfig("audio", 0, &sbconf) == 0) return; if(sbconf.type == nil || (cistrcmp(sbconf.type, "sb16") != 0 && cistrcmp(sbconf.type, "ess1688") != 0)) return; switch(sbconf.port){ case 0x220: case 0x240: case 0x260: case 0x280: break; default: print("#A: bad port %#lux\n", sbconf.port); return; } if(ioalloc(sbconf.port, 0x10, 0, "audio") < 0){ print("#A: cannot ioalloc range %lux+0x10\n", sbconf.port); return; } if(ioalloc(sbconf.port+0x100, 1, 0, "audio.mpu401") < 0){ iofree(sbconf.port); print("#A: cannot ioalloc range %lux+0x01\n", sbconf.port+0x100); return; } switch(sbconf.irq){ case 2: case 5: case 7: case 9: case 10: break; default: print("#A: bad irq %d\n", sbconf.irq); iofree(sbconf.port); iofree(sbconf.port+0x100); return; } blaster.reset = sbconf.port + 0x6; blaster.read = sbconf.port + 0xa; blaster.write = sbconf.port + 0xc; blaster.wstatus = sbconf.port + 0xc; blaster.rstatus = sbconf.port + 0xe; blaster.mixaddr = sbconf.port + 0x4; blaster.mixdata = sbconf.port + 0x5; blaster.clri8 = sbconf.port + 0xe; blaster.clri16 = sbconf.port + 0xf; blaster.clri401 = sbconf.port + 0x100; blaster.dma = sbconf.dma; blaster.startdma = sb16startdma; blaster.intr = sb16intr; audio.amode = Aclosed; resetlevel(); outb(blaster.reset, 1); delay(1); /* >3 υs */ outb(blaster.reset, 0); delay(1); i = sbread(); if(i != 0xaa) { print("#A: no response #%.2x\n", i); iofree(sbconf.port); iofree(sbconf.port+0x100); return; } sbcmd(0xe1); /* get version */ audio.major = sbread(); audio.minor = sbread(); if(audio.major != 4) { if(audio.major != 3 || audio.minor != 1 || ess1688(&sbconf)){ print("#A: model %#.2x %#.2x; not SB 16 compatible\n", audio.major, audio.minor); iofree(sbconf.port); iofree(sbconf.port+0x100); return; } audio.major = 4; } /* * initialize the mixer */ mxcmd(0x00, 0); /* Reset mixer */ mxvolume(); /* * Attempt to set IRQ/DMA channels. * On old ISA boards, these registers are writable. * On Plug-n-Play boards, these are read-only. * * To accomodate both, we write to the registers, * but then use the contents in case the write is * disallowed. */ mxcmd(0x80, /* irq */ (sbconf.irq==2)? 1: (sbconf.irq==5)? 2: (sbconf.irq==7)? 4: (sbconf.irq==9)? 1: (sbconf.irq==10)? 8: 0); mxcmd(0x81, 1<qid.path) { default: error(Eperm); break; case Qstatus: if((omode&7) != OREAD) error(Eperm); case Qvolume: case Qdir: break; case Qaudio: amode = Awrite; if((omode&7) == OREAD) amode = Aread; qlock(&audio); if(audio.amode != Aclosed){ qunlock(&audio); error(Einuse); } if(audio.bufinit == 0) { audio.bufinit = 1; sbbufinit(); } audio.amode = amode; setempty(); audio.curcount = 0; qunlock(&audio); mxvolume(); break; } c = devopen(c, omode, audiodir, nelem(audiodir), devgen); c->mode = openmode(omode); c->flag |= COPEN; c->offset = 0; return c; } static void audioclose(Chan *c) { Buf *b; switch((ulong)c->qid.path) { default: error(Eperm); break; case Qdir: case Qvolume: case Qstatus: break; case Qaudio: if(c->flag & COPEN) { qlock(&audio); if(audio.amode == Awrite) { /* flush out last partial buffer */ b = audio.filling; if(b) { audio.filling = 0; memset(b->virt+audio.curcount, 0, Bufsize-audio.curcount); audio.buffered += Bufsize-audio.curcount; swab(b->virt); putbuf(&audio.full, b); } if(!audio.active && audio.full.first) pokeaudio(); } audio.amode = Aclosed; if(waserror()){ qunlock(&audio); nexterror(); } while(audio.active) waitaudio(); setempty(); poperror(); qunlock(&audio); } break; } } static long audioread(Chan *c, void *v, long n, vlong offset) { int liv, riv, lov, rov; long m, n0; char buf[300]; Buf *b; int j; char *a; n0 = n; a = v; switch((ulong)c->qid.path) { default: error(Eperm); break; case Qdir: return devdirread(c, a, n, audiodir, nelem(audiodir), devgen); case Qaudio: if(audio.amode != Aread) error(Emode); qlock(&audio); if(waserror()){ qunlock(&audio); nexterror(); } while(n > 0) { b = audio.filling; if(b == 0) { b = getbuf(&audio.full); if(b == 0) { waitaudio(); continue; } audio.filling = b; swab(b->virt); audio.curcount = 0; } m = Bufsize-audio.curcount; if(m > n) m = n; memmove(a, b->virt+audio.curcount, m); audio.curcount += m; n -= m; a += m; audio.buffered -= m; if(audio.curcount >= Bufsize) { audio.filling = 0; putbuf(&audio.empty, b); } } poperror(); qunlock(&audio); break; case Qstatus: buf[0] = 0; snprint(buf, sizeof(buf), "bufsize %6d buffered %6d offset %10lud time %19lld\n", Bufsize, audio.buffered, audio.totcount, audio.tottime); return readstr(offset, a, n, buf); case Qvolume: j = 0; buf[0] = 0; for(m=0; volumes[m].name; m++){ liv = audio.livol[m]; riv = audio.rivol[m]; lov = audio.lovol[m]; rov = audio.rovol[m]; j += snprint(buf+j, sizeof(buf)-j, "%s", volumes[m].name); if((volumes[m].flag & Fmono) || liv==riv && lov==rov){ if((volumes[m].flag&(Fin|Fout))==(Fin|Fout) && liv==lov) j += snprint(buf+j, sizeof(buf)-j, " %d", liv); else{ if(volumes[m].flag & Fin) j += snprint(buf+j, sizeof(buf)-j, " in %d", liv); if(volumes[m].flag & Fout) j += snprint(buf+j, sizeof(buf)-j, " out %d", lov); } }else{ if((volumes[m].flag&(Fin|Fout))==(Fin|Fout) && liv==lov && riv==rov) j += snprint(buf+j, sizeof(buf)-j, " left %d right %d", liv, riv); else{ if(volumes[m].flag & Fin) j += snprint(buf+j, sizeof(buf)-j, " in left %d right %d", liv, riv); if(volumes[m].flag & Fout) j += snprint(buf+j, sizeof(buf)-j, " out left %d right %d", lov, rov); } } j += snprint(buf+j, sizeof(buf)-j, "\n"); } return readstr(offset, a, n, buf); } return n0-n; } static long audiowrite(Chan *c, void *vp, long n, vlong) { long m, n0; int i, v, left, right, in, out; Cmdbuf *cb; Buf *b; char *a; a = vp; n0 = n; switch((ulong)c->qid.path) { default: error(Eperm); break; case Qvolume: v = Vaudio; left = 1; right = 1; in = 1; out = 1; cb = parsecmd(vp, n); if(waserror()){ free(cb); nexterror(); } for(i = 0; i < cb->nf; i++){ /* * a number is volume */ if(cb->f[i][0] >= '0' && cb->f[i][0] <= '9') { m = strtoul(cb->f[i], 0, 10); if(left && out) audio.lovol[v] = m; if(left && in) audio.livol[v] = m; if(right && out) audio.rovol[v] = m; if(right && in) audio.rivol[v] = m; mxvolume(); goto cont0; } for(m=0; volumes[m].name; m++) { if(strcmp(cb->f[i], volumes[m].name) == 0) { v = m; in = 1; out = 1; left = 1; right = 1; goto cont0; } } if(strcmp(cb->f[i], "reset") == 0) { resetlevel(); mxvolume(); goto cont0; } if(strcmp(cb->f[i], "in") == 0) { in = 1; out = 0; goto cont0; } if(strcmp(cb->f[i], "out") == 0) { in = 0; out = 1; goto cont0; } if(strcmp(cb->f[i], "left") == 0) { left = 1; right = 0; goto cont0; } if(strcmp(cb->f[i], "right") == 0) { left = 0; right = 1; goto cont0; } error(Evolume); break; cont0:; } free(cb); poperror(); break; case Qaudio: if(audio.amode != Awrite) error(Emode); qlock(&audio); if(waserror()){ qunlock(&audio); nexterror(); } while(n > 0) { b = audio.filling; if(b == 0) { b = getbuf(&audio.empty); if(b == 0) { waitaudio(); continue; } audio.filling = b; audio.curcount = 0; } m = Bufsize-audio.curcount; if(m > n) m = n; memmove(b->virt+audio.curcount, a, m); audio.curcount += m; n -= m; a += m; audio.buffered += m; if(audio.curcount >= Bufsize) { audio.filling = 0; swab(b->virt); putbuf(&audio.full, b); pokeaudio(); } } poperror(); qunlock(&audio); break; } return n0 - n; } static void swab(uchar *a) { u32int *p, *ep, b; if(!SBswab){ USED(a); return; } p = (u32int*)a; ep = p + (Bufsize>>2); while(p < ep) { b = *p; b = (b>>24) | (b<<24) | ((b&0xff0000) >> 8) | ((b&0x00ff00) << 8); *p++ = b; } } Dev audiodevtab = { 'A', "audio", devreset, audioinit, devshutdown, audioattach, audiowalk, audiostat, audioopen, devcreate, audioclose, audioread, devbread, audiowrite, devbwrite, devremove, devwstat, };