ref: 2aec1f8a09ae0bc9fb269d84ef53defebc47eede
dir: /sys/src/9/pc/audiosb16.c/
/* * SB 16 driver */ #include "u.h" #include "../port/lib.h" #include "mem.h" #include "dat.h" #include "fns.h" #include "io.h" #include "../port/error.h" #include "../port/audioif.h" typedef struct Ring Ring; typedef struct Blaster Blaster; typedef struct Ctlr Ctlr; enum { Vmaster, Vaudio, Vsynth, Vcd, Vline, Vmic, Vspeaker, Vtreb, Vbass, Vigain, Vogain, Vspeed, Vdelay, Nvol, Blocksize = 4096, Blocks = 65536/Blocksize, }; struct Ring { uchar *buf; ulong nbuf; ulong ri; ulong wi; }; struct Blaster { 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; void (*startdma)(Ctlr*); void (*intr)(Ctlr*); }; struct Ctlr { Rendez vous; int active; /* boolean dma running */ int major; /* SB16 major version number (sb 4) */ int minor; /* SB16 minor version number */ Ring ring; /* dma ring buffer */ Blaster blaster; int lvol[Nvol]; int rvol[Nvol]; /* for probe */ Audio *adev; ISAConf conf; Ctlr *next; }; static Volume voltab[] = { [Vmaster] "master", 0x30, 0xff, Stereo, 0, [Vaudio] "audio", 0x32, 0xff, Stereo, 0, [Vsynth] "synth", 0x34, 0xff, Stereo, 0, [Vcd] "cd", 0x36, 0xff, Stereo, 0, [Vline] "line", 0x38, 0xff, Stereo, 0, [Vmic] "mic", 0x3a, 0xff, Mono, 0, [Vspeaker] "speaker", 0x3b, 0xff, Mono, 0, [Vtreb] "treb", 0x44, 0xff, Stereo, 0, [Vbass] "bass", 0x46, 0xff, Stereo, 0, [Vigain] "recgain", 0x3f, 0xff, Stereo, 0, [Vogain] "outgain", 0x41, 0xff, Stereo, 0, [Vspeed] "speed", 0, 0, Absolute, 0, [Vdelay] "delay", 0, 0, Absolute, 0, 0, }; static char Emajor[] = "soundblaster not responding/wrong version"; static long buffered(Ring *r) { ulong ri, wi; ri = r->ri; wi = r->wi; if(wi >= ri) return wi - ri; else return r->nbuf - (ri - wi); } static long available(Ring *r) { long m; m = (r->nbuf - 1) - buffered(r); if(m < 0) m = 0; return m; } static long readring(Ring *r, uchar *p, long n) { long n0, m; n0 = n; while(n > 0){ if((m = buffered(r)) <= 0) break; if(m > n) m = n; if(p){ if(r->ri + m > r->nbuf) m = r->nbuf - r->ri; memmove(p, r->buf + r->ri, m); p += m; } r->ri = (r->ri + m) % r->nbuf; n -= m; } return n0 - n; } static long writering(Ring *r, uchar *p, long n) { long n0, m; n0 = n; while(n > 0){ if((m = available(r)) <= 0) break; if(m > n) m = n; if(p){ if(r->wi + m > r->nbuf) m = r->nbuf - r->wi; memmove(r->buf + r->wi, p, m); p += m; } r->wi = (r->wi + m) % r->nbuf; n -= m; } return n0 - n; } static int sbcmd(Blaster *blaster, 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; } } return 1; } static int sbread(Blaster *blaster) { int i, s; for(i=1<<16; i!=0; i--) { s = inb(blaster->rstatus); if((s & 0x80) != 0) { return inb(blaster->read); } } return -1; } static int ess1688w(Blaster *blaster, int reg, int val) { if(sbcmd(blaster, reg) || sbcmd(blaster, val)) return 1; return 0; } static int ess1688r(Blaster *blaster, int reg) { if(sbcmd(blaster, 0xC0) || sbcmd(blaster, reg)) return -1; return sbread(blaster); } static int mxcmd(Blaster *blaster, int addr, int val) { outb(blaster->mixaddr, addr); outb(blaster->mixdata, val); return 1; } static int mxread(Blaster *blaster, int addr) { int s; outb(blaster->mixaddr, addr); s = inb(blaster->mixdata); return s; } static int mxsetvol(Audio *adev, int x, int a[2]) { Blaster *blaster; Ctlr *ctlr = adev->ctlr; Volume *vol; vol = voltab+x; blaster = &ctlr->blaster; ilock(blaster); switch(vol->type){ case Absolute: switch(x){ case Vdelay: adev->delay = a[0]; break; case Vspeed: adev->speed = a[0]; break; } ctlr->lvol[x] = ctlr->rvol[x] = a[0]; break; case Stereo: ctlr->rvol[x] = a[1]; mxcmd(blaster, vol->reg+1, a[1]); /* no break */ case Mono: ctlr->lvol[x] = a[0]; mxcmd(blaster, vol->reg, a[0]); } iunlock(blaster); return 0; } static int mxgetvol(Audio *adev, int x, int a[2]) { Ctlr *ctlr = adev->ctlr; a[0] = ctlr->lvol[x]; a[1] = ctlr->rvol[x]; return 0; } static void contindma(Ctlr *ctlr) { Blaster *blaster; Ring *ring; blaster = &ctlr->blaster; ring = &ctlr->ring; if(buffered(ring) >= Blocksize) ring->ri = ring->nbuf - dmacount(ctlr->conf.dma); else{ dmaend(ctlr->conf.dma); sbcmd(blaster, 0xd9); /* exit at end of count */ sbcmd(blaster, 0xd5); /* pause */ ctlr->active = 0; } wakeup(&ctlr->vous); } /* * cause sb to get an interrupt per buffer. * start first dma */ static void sb16startdma(Ctlr *ctlr) { Blaster *blaster; Ring *ring; long count; int speed; blaster = &ctlr->blaster; ring = &ctlr->ring; ilock(blaster); dmaend(ctlr->conf.dma); if(0) sbcmd(blaster, 0x42); /* input sampling rate */ else sbcmd(blaster, 0x41); /* output sampling rate */ speed = ctlr->adev->speed; sbcmd(blaster, speed>>8); sbcmd(blaster, speed); if(0) sbcmd(blaster, 0xbe); /* A/D, autoinit */ else sbcmd(blaster, 0xb6); /* D/A, autoinit */ sbcmd(blaster, 0x30); /* stereo, signed 16 bit */ count = (Blocksize>>1) - 1; sbcmd(blaster, count); sbcmd(blaster, count>>8); ctlr->active = 1; if(dmasetup(ctlr->conf.dma, ring->buf, ring->nbuf, DMAWRITE|DMALOOP) < 0){ ctlr->active = 0; print("#A%d: dmasetup fail\n", ctlr->adev->ctlrno); } iunlock(blaster); } static int ess1688reset(Blaster *blaster, int ctlrno) { int i; outb(blaster->reset, 3); delay(1); /* >3 υs */ outb(blaster->reset, 0); delay(1); i = sbread(blaster); if(i != 0xAA) { print("#A%d: no response %#.2x\n", ctlrno, i); return 1; } if(sbcmd(blaster, 0xC6)){ /* extended mode */ print("#A%d: barf 3\n", ctlrno); return 1; } return 0; } static void ess1688startdma(Ctlr *ctlr) { Blaster *blaster; Ring *ring; ulong count; int speed, x; blaster = &ctlr->blaster; ring = &ctlr->ring; ilock(blaster); dmaend(ctlr->conf.dma); ess1688reset(blaster, ctlr->adev->ctlrno); /* * Set the speed. */ speed = ctlr->adev->speed; 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(blaster, 0xA1, x & 0xFF); speed = (speed * 9) / 20; x = 256 - 7160000 / (speed * 82); ess1688w(blaster, 0xA2, x & 0xFF); if(0) ess1688w(blaster, 0xB8, 0x0E); /* A/D, autoinit */ else ess1688w(blaster, 0xB8, 0x04); /* D/A, autoinit */ x = ess1688r(blaster, 0xA8) & ~0x03; ess1688w(blaster, 0xA8, x|0x01); /* 2 channels */ ess1688w(blaster, 0xB9, 2); /* demand mode, 4 bytes per request */ if(1) ess1688w(blaster, 0xB6, 0); /* for output */ ess1688w(blaster, 0xB7, 0x71); ess1688w(blaster, 0xB7, 0xBC); x = ess1688r(blaster, 0xB1) & 0x0F; ess1688w(blaster, 0xB1, x|0x50); x = ess1688r(blaster, 0xB2) & 0x0F; ess1688w(blaster, 0xB2, x|0x50); if(1) sbcmd(blaster, 0xD1); /* speaker on */ count = -Blocksize; ess1688w(blaster, 0xA4, count & 0xFF); ess1688w(blaster, 0xA5, (count>>8) & 0xFF); x = ess1688r(blaster, 0xB8); ess1688w(blaster, 0xB8, x|0x05); ctlr->active = 1; if(dmasetup(ctlr->conf.dma, ring->buf, ring->nbuf, DMAWRITE|DMALOOP) < 0){ ctlr->active = 0; print("#A%d: dmasetup fail\n", ctlr->adev->ctlrno); } iunlock(blaster); } static void sb16intr(Ctlr *ctlr) { Blaster *blaster; int stat; blaster = &ctlr->blaster; ilock(blaster); stat = mxread(blaster, 0x82); /* get irq status */ if(stat & 3){ contindma(ctlr); if(stat & 2) inb(blaster->clri16); else if(stat & 1) inb(blaster->clri8); } else if(stat & 4) inb(blaster->clri401); iunlock(blaster); } static void ess1688intr(Ctlr *ctlr) { Blaster *blaster; blaster = &ctlr->blaster; ilock(blaster); contindma(ctlr); inb(blaster->clri8); iunlock(blaster); } static void audiointr(Ureg *, void *arg) { Audio *adev; Ctlr *ctlr; adev = arg; ctlr = adev->ctlr; if(!ctlr->active){ iprint("#A%d: unexpected %s interrupt\n", ctlr->adev->ctlrno, ctlr->adev->name); return; } ctlr->blaster.intr(ctlr); } static void setempty(Ctlr *ctlr) { ilock(&ctlr->blaster); ctlr->ring.ri = 0; ctlr->ring.wi = 0; iunlock(&ctlr->blaster); } static long audiobuffered(Audio *adev) { return buffered(&((Ctlr*)adev->ctlr)->ring); } static long audiostatus(Audio *adev, void *a, long n, vlong) { Ctlr *ctlr = adev->ctlr; return snprint((char*)a, n, "bufsize %6d buffered %6ld\n", Blocksize, buffered(&ctlr->ring)); } static int inactive(void *arg) { Ctlr *ctlr = arg; return !ctlr->active; } static int anybuf(void *arg) { Ctlr *ctlr = arg; return available(&ctlr->ring) || inactive(ctlr); } static int ratebuf(void *arg) { Ctlr *ctlr = arg; int delay = ctlr->adev->delay*4; return (delay <= 0) || (buffered(&ctlr->ring) <= delay) || inactive(ctlr); } static long audiowrite(Audio *adev, void *vp, long n, vlong) { uchar *p, *e; Ctlr *ctlr; Ring *ring; p = vp; e = p + n; ctlr = adev->ctlr; ring = &ctlr->ring; while(p < e) { if((n = writering(ring, p, e - p)) <= 0){ if(!ctlr->active && ring->ri == 0) ctlr->blaster.startdma(ctlr); if(!ctlr->active) setempty(ctlr); else sleep(&ctlr->vous, anybuf, ctlr); } p += n; } while(ratebuf(ctlr) == 0) sleep(&ctlr->vous, ratebuf, ctlr); return p - (uchar*)vp; } static void audioclose(Audio *adev, int mode) { Ctlr *ctlr; if(mode == OREAD) return; ctlr = adev->ctlr; sleep(&ctlr->vous, inactive, ctlr); setempty(ctlr); } static long audiovolread(Audio *adev, void *a, long n, vlong) { return genaudiovolread(adev, a, n, 0, voltab, mxgetvol, 0); } static long audiovolwrite(Audio *adev, void *a, long n, vlong) { Blaster *blaster; Ctlr *ctlr; int source; ctlr = adev->ctlr; blaster = &ctlr->blaster; n = genaudiovolwrite(adev, a, n, 0, voltab, mxsetvol, 0); source = 0; if(ctlr->lvol[Vsynth]) source |= 1<<6; if(ctlr->rvol[Vsynth]) source |= 1<<5; if(ctlr->lvol[Vaudio]) source |= 1<<4; if(ctlr->rvol[Vaudio]) source |= 1<<3; if(ctlr->lvol[Vcd]) source |= 1<<2; if(ctlr->rvol[Vcd]) source |= 1<<1; if(ctlr->lvol[Vmic]) source |= 1<<0; ilock(blaster); mxcmd(blaster, 0x3c, source); /* output switch */ mxcmd(blaster, 0x3d, source); /* input left switch */ mxcmd(blaster, 0x3e, source); /* input right switch */ iunlock(blaster); return n; } static int ess1688(ISAConf* sbconf, Blaster *blaster, int ctlrno) { int i, major, minor; /* * Try for ESS1688. */ sbcmd(blaster, 0xE7); /* get version */ major = sbread(blaster); minor = sbread(blaster); if(major != 0x68 || minor != 0x8B){ print("#A%d: model %#.2x %#.2x; not ESS1688 compatible\n", ctlrno, major, minor); return -1; } ess1688reset(blaster, ctlrno); switch(sbconf->irq){ 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%d: bad ESS1688 irq %d\n", ctlrno, sbconf->irq); return 1; } ess1688w(blaster, 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%d: bad ESS1688 dma %lud\n", ctlrno, sbconf->dma); return 1; } ess1688w(blaster, 0xB2, i); ess1688reset(blaster, ctlrno); blaster->startdma = ess1688startdma; blaster->intr = ess1688intr; return 0; } static int audioprobe(Audio *adev) { static int irq[] = {9,5,7,10}; static Ctlr *cards = nil; Ctlr *ctlr; Blaster *blaster; int i, x; /* make a list of audio isa cards if not already done */ if(cards == nil){ for(i=0; i<nelem(irq); i++){ ctlr = mallocz(sizeof(Ctlr), 1); if(ctlr == nil){ print("sb16: can't allocate memory\n"); break; } ctlr->conf.port = 0x220 + i*0x10; ctlr->conf.irq = irq[i]; ctlr->conf.dma = 0; if(isaconfig("audio", i, &ctlr->conf) == 0){ free(ctlr); break; } ctlr->next = cards; cards = ctlr; } } /* pick a card */ for(ctlr = cards; ctlr; ctlr = ctlr->next){ if(ctlr->conf.type && strcmp(adev->name, ctlr->conf.type) == 0){ ctlr->conf.type = nil; goto Found; } } return -1; Found: switch(ctlr->conf.port){ case 0x220: case 0x240: case 0x260: case 0x280: break; default: print("#A%d: bad port %#lux\n", adev->ctlrno, ctlr->conf.port); return -1; } if(ioalloc(ctlr->conf.port, 0x10, 0, "audio") < 0){ print("#A%d: cannot ioalloc range %lux+0x10\n", adev->ctlrno, ctlr->conf.port); return -1; } if(ioalloc(ctlr->conf.port+0x100, 1, 0, "audio.mpu401") < 0){ iofree(ctlr->conf.port); print("#A%d: cannot ioalloc range %lux+0x01\n", adev->ctlrno, ctlr->conf.port+0x100); return -1; } ctlr->adev = adev; adev->ctlr = ctlr; blaster = &ctlr->blaster; blaster->reset = ctlr->conf.port + 0x6; blaster->read = ctlr->conf.port + 0xa; blaster->write = ctlr->conf.port + 0xc; blaster->wstatus = ctlr->conf.port + 0xc; blaster->rstatus = ctlr->conf.port + 0xe; blaster->mixaddr = ctlr->conf.port + 0x4; blaster->mixdata = ctlr->conf.port + 0x5; blaster->clri8 = ctlr->conf.port + 0xe; blaster->clri16 = ctlr->conf.port + 0xf; blaster->clri401 = ctlr->conf.port + 0x100; blaster->startdma = sb16startdma; blaster->intr = sb16intr; outb(blaster->reset, 1); delay(1); /* >3 υs */ outb(blaster->reset, 0); delay(1); i = sbread(blaster); if(i != 0xaa) { print("#A%d: no response #%.2x\n", adev->ctlrno, i); Errout: iofree(ctlr->conf.port); iofree(ctlr->conf.port+0x100); return -1; } sbcmd(blaster, 0xe1); /* get version */ ctlr->major = sbread(blaster); ctlr->minor = sbread(blaster); if(ctlr->major != 4) { if(ctlr->major != 3 || ctlr->minor != 1 || ess1688(&ctlr->conf, blaster, adev->ctlrno)){ print("#A%d: model %#.2x %#.2x; not SB 16 compatible\n", adev->ctlrno, ctlr->major, ctlr->minor); goto Errout; } ctlr->major = 4; } /* * initialize the mixer */ mxcmd(blaster, 0x00, 0); /* Reset mixer */ for(i=0; i<Nvol; i++){ int a[2]; a[0] = 0; a[1] = 0; mxsetvol(adev, i, a); } /* set irq */ for(i=0; i<nelem(irq); i++){ if(ctlr->conf.irq == irq[i]){ mxcmd(blaster, 0x80, 1<<i); break; } } x = mxread(blaster, 0x80); for(i=0; i<nelem(irq); i++){ if(x & (1<<i)){ ctlr->conf.irq = irq[i]; break; } } for(;;){ /* set 16bit dma */ if(ctlr->conf.dma>=5 && ctlr->conf.dma<=7){ x = mxread(blaster, 0x81); mxcmd(blaster, 0x81, (1<<ctlr->conf.dma) & 0xF0 | (x & 0x0F)); } x = mxread(blaster, 0x81); for(i=5; i<=7; i++){ if(x & (1<<i)){ ctlr->conf.dma = i; break; } } if(ctlr->conf.dma>=5) break; ctlr->conf.dma = 7; } print("#A%d: %s port 0x%04lux irq %d dma %lud\n", adev->ctlrno, adev->name, ctlr->conf.port, ctlr->conf.irq, ctlr->conf.dma); ctlr->ring.nbuf = Blocks*Blocksize; if(dmainit(ctlr->conf.dma, ctlr->ring.nbuf)) goto Errout; ctlr->ring.buf = dmabva(ctlr->conf.dma); print("#A%d: %s dma buffer %p-%p\n", adev->ctlrno, adev->name, ctlr->ring.buf, ctlr->ring.buf+ctlr->ring.nbuf); setempty(ctlr); adev->write = audiowrite; adev->close = audioclose; adev->volread = audiovolread; adev->volwrite = audiovolwrite; adev->status = audiostatus; adev->buffered = audiobuffered; intrenable(ctlr->conf.irq, audiointr, adev, BUSUNKNOWN, adev->name); return 0; } void audiosb16link(void) { addaudiocard("sb16", audioprobe); addaudiocard("ess1688", audioprobe); }