ref: d32578073676ce90769c378cbd5c61db22c1b49e
dir: /sys/src/cmd/reform/audio.c/
#include <u.h> #include <libc.h> #include <fcall.h> #include <thread.h> #include <9p.h> #define MIN(a,b) (a<b?a:b) #define MAX(a,b) (a>b?a:b) #define CLAMP(x,a,b) MAX(a,MIN(x,b)) typedef struct Out Out; enum { Dac, Hp, Spk, Nout, Ctl = 1, Vol, }; struct Out { char *name; int volreg; int volmax; int togglemask; void (*toggle)(Out *o, int on); int on; int vol[2]; }; static char *uid = "audio"; static int data; static int reg1a; static int rate = 44100; static int ⅓d; static void wr(int a, int v) { u8int c; //fprint(2, "[0x%x] ← 0x%ux\n", a, v & 0x1ff); c = v & 0xff; if(pwrite(data, &c, 1, a<<1 | ((v>>8)&1)) < 1) fprint(2, "reg %x write failed: %r\n", a); } static void dactoggle(Out *, int on) { wr(0x05, (!on)<<3); } static void classdspk(Out *, int on) { wr(0x31, (on ? 3 : 0)<<6 | 0x37); /* class D SPK out */ } static void toggle(Out *o, int on) { if(on) reg1a |= o->togglemask; else reg1a &= ~o->togglemask; wr(0x1a, reg1a); if(o->toggle != nil) o->toggle(o, on); o->on = on; } static Out out[Nout] = { [Dac] = {"master", 0x0a, 0xff, 0, dactoggle, 0}, [Hp] = {"hp", 0x02, 0x7f, 3<<5, nil, 0}, [Spk] = {"spk", 0x28, 0x7f, 3<<3, classdspk, 0}, }; static void setvol(Out *o, int l, int r) { int zc; o->vol[0] = l = CLAMP(l, 0, 100); o->vol[1] = r = CLAMP(r, 0, 100); if(l > 0) l += o->volmax - 100; if(r > 0) r += o->volmax - 100; zc = o->volmax < 0x80; wr(o->volreg+0, 0<<8 | zc<<7 | l); wr(o->volreg+1, 1<<8 | zc<<7 | r); } static void set3d(int x) { ⅓d = CLAMP(x, 0, 100); x = (⅓d+5)/7; wr(0x10, x<<1 | (x ? 1 : 0)<<0); } static int setrate(int s) { u32int k; if(s != 44100 && s != 48000) return -1; /* * getting DAC ready for s16c2r44100: * * f₁ = mclk₀ = 25Mhz (set in sai) * pllprescale = /2 → *actual* mclk₁ is 25/2 = 12.5Mhz * sysclk = 44.1kHz*256 = 11.2896Mhz * → dacdiv = /(1*256) = sysclk/(1*256) = 44.1kHz * f₂ = 4*2*sysclk = 90.3168Mhz * * PLL freq: * R = f₂/f₁ * N = int(R) = 7 * K = 2²⁴*(R-N) = 3780644.9623 * * dacdiv = /(1*256) → DAC at max rate * → pick bclk rate 1.4112Mhz (sysclk/8) * → bclkdiv = /8 * * class D clk needs to be ~768kHz (700-800) * → sysclk/768000 = 14 * → dclkdiv = /16 → dclk = 705.6kHz */ wr(0x1a, reg1a = reg1a & ~(1<<0)); /* disable pll */ wr(0x04, 0<<3 | /* dacdiv → sysclk/(1*256) = 44100 */ 2<<1 | /* sysclkdiv → /2 */ 1<<0 | /* clksel → pll output */ 0 ); wr(0x34, 1<<5 | /* enable fractional mode */ 1<<4 | /* pllprescale */ 7<<0 | /* N */ 0 ); k = s == 44100 ? 3780645 : 14500883; /* K */ wr(0x35, (k>>16) & 0xff); wr(0x36, (k>>8) & 0xff); wr(0x37, k & 0xff); wr(0x08, 7<<6 | 7<<0); /* dclkdiv → sysclk/16; bclkdiv → sysclk/8 */ wr(0x1a, reg1a = reg1a | 1<<0); /* enable pll */ rate = s; return 0; } static void reset(void) { int i; for(i = 0; i < Nout; i++){ out[i].vol[0] = -1; out[i].vol[1] = -1; } toggle(out+Dac, 0); wr(0x1c, 1<<7 | 1<<4 | 1<<3 | 1<<2); /* Vmid/r bias; Vgs/r on; Vmid soft start */ wr(0x19, 0); /* power down */ sleep(200); wr(0x0f, 0); /* reset registers to default */ setrate(rate); set3d(⅓d); wr(0x07, 1<<6 | 0<<2 | 2<<0); /* master mode; 16 bits; i²s */ wr(0x06, 1<<3 | 0<<2); /* soft mute; ramp up DAC volume fast */ wr(0x2f, 3<<2); /* output mixer on */ wr(0x22, 1<<8); /* L DAC to mixer */ wr(0x25, 1<<8); /* R DAC to mixer */ wr(0x17, 1<<8 | 3<<6 | 1<<1 | 1<<0); /* thermal shutdown on; avdd=3.3v; faster response; slow clock on */ wr(0x1c, 1<<7 | 1<<4 | 1<<3 | 1<<2); /* Vmid/r bias; Vgs/r on; Vmid soft start */ wr(0x19, 1<<7); /* start Vmid (playback) */ sleep(650); wr(0x1c, 1<<3); /* done with anti-pop */ wr(0x19, 1<<7 | 1<<6); /* Vref on */ wr(0x09, 1<<6); /* ADCLRC → gpio (for jack detect output) */ wr(0x30, 3<<4 | 2<<2 | 1<<1); /* gpio jack detect out; JD2 jack detect in; Tsense on */ wr(0x1b, 1<<6 | 0<<3 | 0<<0); /* 20kΩ; capless mode disabled; 44.1/48kHz */ wr(0x18, 1<<6 | 0<<5); /* HP switch on; high = HP */ /* turn on all outputs */ toggle(out+Hp, 1); toggle(out+Spk, 1); /* enable/unmute DAC */ reg1a |= 3<<7; wr(0x1a, reg1a); toggle(out+Dac, 1); /* sensible defaults */ setvol(out+Spk, 100, 100); setvol(out+Hp, 75, 75); setvol(out+Dac, 80, 80); } static void fsread(Req *r) { char msg[256], *s, *e; Out *o; int i; s = msg; e = msg+sizeof(msg); *s = 0; if(r->fid->file->aux == (void*)Ctl){ for(i = 0, o = out; i < Nout; i++, o++) s = seprint(s, e, "%s %s\n", o->name, o->on ? "on" : "off"); }else if(r->fid->file->aux == (void*)Vol){ for(i = 0, o = out; i < Nout; i++, o++) s = seprint(s, e, "%s %d %d\n", o->name, o->vol[0], o->vol[1]); s = seprint(s, e, "speed %d\n", rate); seprint(s, e, "3d %d\n", ⅓d); } readstr(r, msg); respond(r, nil); } static int setoradd(int x, char *s) { int d; d = atoi(s); if(*s == '+' || *s == '-') return x + d; return d; } static void fswrite(Req *r) { int nf, on, i, vl, vr; char msg[256], *f[4]; Out *o; snprint(msg, sizeof(msg), "%.*s", utfnlen((char*)r->ifcall.data, r->ifcall.count), (char*)r->ifcall.data); nf = tokenize(msg, f, nelem(f)); if(nf == 1 && strcmp(f[0], "reset") == 0){ reset(); goto Done; }else if(nf == 2 && strcmp(f[0], "speed") == 0){ if(setrate(atoi(f[1])) != 0){ respond(r, "not supported"); return; } goto Done; }else if(nf == 2 && strcmp(f[0], "3d") == 0){ set3d(atoi(f[1])); goto Done; } if(nf < 2){ Emsg: respond(r, "invalid ctl message"); return; } for(i = 0, o = out; i < Nout && strcmp(f[0], o->name) != 0; i++, o++) ; if(i >= Nout) goto Emsg; if(r->fid->file->aux == (void*)Ctl){ if(nf != 2) goto Emsg; if(strcmp(f[1], "on") == 0) on = 1; else if(strcmp(f[1], "off") == 0) on = 0; else if(strcmp(f[1], "toggle") == 0) on = !o->on; else goto Emsg; toggle(o, on); }else if(r->fid->file->aux == (void*)Vol){ vl = setoradd(o->vol[0], f[1]); vr = setoradd(o->vol[1], nf < 3 ? f[1] : f[2]); setvol(o, vl, vr); } Done: r->ofcall.count = r->ifcall.count; respond(r, nil); } static Srv fs = { .read = fsread, .write = fswrite, }; static void usage(void) { fprint(2, "usage: %s [-1] [-D] [-m /dev] [-s service]\n", argv0); exits("usage"); } void main(int argc, char **argv) { char *mtpt, *srv; int ctl, oneshot; mtpt = "/dev"; srv = nil; oneshot = 0; ARGBEGIN{ case '1': oneshot = 1; break; case 'D': chatty9p = 1; break; case 'm': mtpt = EARGF(usage()); break; case 's': srv = EARGF(usage()); break; default: usage(); }ARGEND if((data = open("#J/i2c3/i2c.1a.data", OWRITE)) < 0) sysfatal("i2c data: %r"); if((ctl = open("#J/i2c3/i2c.1a.ctl", OWRITE)) < 0) sysfatal("i2c ctl: %r"); fprint(ctl, "subaddress 1\n"); fprint(ctl, "size %d\n", 0x38<<1); close(ctl); reset(); if(oneshot) exits(nil); fs.tree = alloctree(uid, uid, DMDIR|0555, nil); createfile(fs.tree->root, "audioctl", uid, 0666, (void*)Ctl); createfile(fs.tree->root, "volume", uid, 0666, (void*)Vol); /* have to mount -b to shadow sai's useless files */ postmountsrv(&fs, srv, mtpt, MBEFORE); exits(nil); }