ref: 39c3fd117ab4988c041800490b23c2aedb1858d3
dir: /sys/src/cmd/vmx/io.c/
#include <u.h> #include <libc.h> #include <thread.h> #include <draw.h> #include <cursor.h> #include <mouse.h> #include "dat.h" #include "fns.h" uchar cmos[0x30] = { [1] 0xff, [3] 0xff, [5] 0xff, [0xa] 0x26, [0xb] 1<<1, [0xd] 1<<7, /* cmos valid */ [0xf] 0x56, /* cmos tests pass */ [0x11] 0x80, /* mouse enabled */ [0x14] 0x2e, /* cga 80-column */ [0x2d] 0x1c, /* caches + fpu enabled */ }; static vlong rtcnext = -1; static uchar bcd(uchar m, uchar c) { return (m & 1) != 0 ? c : c / 10 << 4 | c % 10; } void rtcadvance(void) { vlong t; if(rtcnext != -1){ t = nsec(); if(t >= rtcnext){ cmos[0xc] |= 0x40; rtcnext = -1; }else settimer(rtcnext); } irqline(8, (cmos[0xc] & cmos[0xb] & 0x70) != 0); } static void rtcset(void) { vlong t, b; int d; rtcadvance(); if((cmos[0xa] >> 4) > 2 || (cmos[0xa] & 15) == 0 || (cmos[0xc] & 0x40) != 0){ rtcnext = -1; return; } switch(cmos[0xa]){ case 0x21: d = 12; break; case 0x22: d = 13; break; default: d = 4 + (cmos[0xa] & 0xf); } b = (1000000000ULL << d) / 1048576; t = nsec(); rtcnext = t + b - t % b; settimer(rtcnext); } static u32int rtcio(int isin, u16int port, u32int val, int sz, void *) { static u8int addr; uintptr basemem, extmem; static int cmosinit; int i, s; Tm *tm; if(cmosinit == 0){ basemem = gavail(gptr(0, 0)) >> 10; if(basemem > 640) basemem = 640; extmem = gavail(gptr(1<<20, 0)) >> 10; if(extmem >= 65535) extmem = 65535; cmos[0x15] = basemem; cmos[0x16] = basemem >> 8; cmos[0x17] = extmem; cmos[0x18] = extmem >> 8; s = 0; for(i = 0x10; i < 0x2e; i++) s += cmos[i]; cmos[0x2e] = s >> 8; cmos[0x2f] = s; cmosinit = 1; } if(sz != 1) vmerror("rtc: access size %d != 1", sz); val = (u8int) val; switch(isin << 16 | port){ case 0x70: addr = val; return 0; case 0x71: switch(addr){ case 0xa: cmos[addr] = val & 0x7f; rtcset(); break; case 0xb: cmos[addr] = val | 2; rtcadvance(); break; case 0xc: case 0xd: goto no; default: if(addr < nelem(cmos)) cmos[addr] = val; else no: vmerror("rtc: write to unknown address %#x (val=%#x)", addr, val); return 0; } case 0x10070: return addr; case 0x10071: tm = gmtime(time(nil)); switch(addr){ case 0x00: return bcd(cmos[0xb], tm->sec); case 0x02: return bcd(cmos[0xb], tm->min); case 0x04: return bcd(cmos[0xb], tm->hour); case 0x06: return bcd(cmos[0xb], tm->wday + 1); case 0x07: return bcd(cmos[0xb], tm->mday); case 0x08: return bcd(cmos[0xb], tm->mon + 1); case 0x09: return bcd(cmos[0xb], tm->year % 100); case 0x0c: i = cmos[0xc] | ((cmos[0xc] & cmos[0xb] & 0x70) != 0) << 7; cmos[0xc] = 0; rtcset(); return i; case 0x32: return bcd(cmos[0xb], tm->year / 100 + 19); default: if(addr < nelem(cmos)) return cmos[addr]; vmerror("rtc: read from unknown address %#x", addr); return 0; } } return iowhine(isin, port, val, sz, "rtc"); } typedef struct Pic Pic; struct Pic { enum { AEOI = 1, ROTAEOI = 2, MASKMODE = 4, POLL = 8, READSR = 16, } flags; u8int lines; u8int irr, isr; u8int imr; u8int elcr; u8int init; u8int prio; u8int base; } pic[2]; int irqactive = -1; static u8int picprio(u8int v, u8int p, u8int *n) { p++; v = v >> p | v << 8 - p; v &= -v; v = v << p | v >> 8 - p; if(n != nil) *n = ((v & 0xf0) != 0) << 2 | ((v & 0xcc) != 0) << 1 | (v & 0xaa) != 0; return v; } static u8int piccheck(Pic *p, u8int *n) { u8int s; s = p->isr; if((p->flags & MASKMODE) != 0 && p->imr != 0) s = 0; return picprio(p->irr & ~p->imr | s, p->prio, n) & ~s; } static void picaeoi(Pic *p, u8int b) { if((p->flags & AEOI) == 0) return; p->isr &= ~(1<<b); if((p->flags & ROTAEOI) != 0) p->prio = b; } static void picupdate(Pic *p) { u8int m, n; if(p->init != 4) return; m = piccheck(p, &n); if(p == &pic[1]) irqline(2, m != 0); else{ if(m != 0 && n == 2){ m = piccheck(&pic[1], &n); n |= pic[1].base; }else n |= p->base; if(m != 0 && irqactive != n){ if(ctl("irq %d", n) < 0) sysfatal("ctl: %r"); if(state == VMHALT) state = VMRUNNING; irqactive = n; }else if(m == 0 && irqactive >= 0){ if(ctl("irq") < 0) sysfatal("ctl: %r"); irqactive = -1; } } } void irqline(int n, int s) { Pic *p; u8int ol, m; assert(n >= 0 && n <= 15); p = &pic[n / 8]; n %= 8; ol = p->lines; m = 1<<n; switch(s){ case 1: case IRQLLOHI: p->lines |= m; break; case 0: p->lines &= ~m; break; case IRQLTOGGLE: p->lines ^= m; break; default: assert(0); } if((p->elcr & m) != 0) p->irr = p->irr & ~m | ~p->lines & m; else p->irr |= p->lines & ~ol & m; if(s == IRQLLOHI && (p->elcr & m) == 0) p->irr |= m; picupdate(p); } void irqack(int n) { Pic *p; extern int nextexit; irqactive = -1; if((n & ~7) == pic[0].base) p = &pic[0]; else if((n & ~7) == pic[1].base) p = &pic[1]; else return; if(p == &pic[1]){ irqack(pic[0].base + 2); irqline(2, 0); } n &= 7; p->irr &= ~(1<<n); p->isr |= 1<<n; picaeoi(p, n); picupdate(p); } void elcr(u16int a) { pic[0].elcr = a; pic[1].elcr = a >> 8; } static u32int picio(int isin, u16int port, u32int val, int sz, void *) { Pic *p; u8int m, b; p = &pic[(port & 0x80) != 0]; val = (u8int)val; switch(isin << 16 | port){ case 0x20: case 0xa0: if((val & 1<<4) != 0){ /* ICW1 */ if(irqactive >= 0){ if(ctl("irq") < 0) sysfatal("ctl: %r"); irqactive = -1; } p->irr = 0; p->isr = 0; p->imr = 0; p->prio = 7; p->flags = 0; if((val & 0x0b) != 0x01) vmerror("PIC%ld ICW1 with unsupported value %#ux", p-pic, val); p->init = 1; return 0; } if((val & 0x18) == 0){ /* OCW2 */ switch(val >> 5){ case 0: /* rotate in automatic eoi mode (clear) */ p->flags &= ~ROTAEOI; break; case 1: /* non-specific eoi command */ p->isr &= ~picprio(p->isr, p->prio, nil); break; case 2: /* no operation */ break; case 3: /* specific eoi command */ p->isr &= ~(1<<(val & 7)); break; case 4: /* rotate in automatic eoi mode (set) */ p->flags |= ROTAEOI; break; case 5: /* rotate on non-specific eoi command */ p->isr &= ~picprio(p->isr, p->prio, &p->prio); break; case 6: /* set priority */ p->prio = val & 7; break; case 7: /* rotate on specific eoi command */ p->isr &= ~(1<<(val & 7)); p->prio = val & 7; break; } picupdate(p); return 0; } if((val & 0x98) == 8){ /* OCW3 */ if((val & 0x40) != 0) if((val & 0x20) != 0) p->flags |= MASKMODE; else p->flags &= ~MASKMODE; if((val & 4) != 0) p->flags |= POLL; if((val & 2) != 0) if((val & 10) != 0) p->flags |= READSR; else p->flags &= ~READSR; picupdate(p); } return 0; case 0x21: case 0xa1: switch(p->init){ default: vmerror("write to PIC%ld in init=%d state", p-pic, p->init); return 0; case 1: p->base = val; p->init = 2; return 0; case 2: if(p == &pic[0] && val != 4 || p == &pic[1] && val != 2) vmerror("PIC%ld ICW3 with unsupported value %#ux", p-pic, val); p->init = 3; return 0; case 3: if((val & 0xfd) != 1) vmerror("PIC%ld ICW4 with unsupported value %#ux", p-pic, val); if((val & 2) != 0) p->flags |= AEOI; p->init = 4; picupdate(p); return 0; case 0: case 4: p->imr = val; picupdate(p); return 0; } break; case 0x10020: case 0x100a0: if((p->flags & READSR) != 0) return p->isr; if((p->flags & POLL) != 0){ p->flags &= ~POLL; m = piccheck(p, &b); if(m != 0){ p->irr &= ~m; p->isr |= m; picaeoi(p, b); picupdate(p); return 1<<7 | b; } return 0; } return p->irr; case 0x10021: case 0x100a1: return p->imr; case 0x4d0: case 0x4d1: pic[port & 1].elcr = val; return 0; case 0x104d0: case 0x104d1: return pic[port & 1].elcr; } return iowhine(isin, port, val, sz, "pic"); } typedef struct PITChannel PITChannel; struct PITChannel { u8int mode; u8int bcd; u8int access; u8int state; u16int count, reload; int latch; enum { READLO, READHI, READLATLO, READLATHI } readstate; u8int writestate; vlong lastnsec; u8int output; }; PITChannel pit[3] = { [0] { .state 1 }, }; u8int port61; enum { PERIOD = 838 }; void settimer(vlong targ) { extern vlong timerevent; extern Lock timerlock; extern int timerid; int sendint; sendint = 0; lock(&timerlock); if(targ < timerevent){ timerevent = targ; sendint = 1; } unlock(&timerlock); if(sendint) threadint(timerid); } static void pitout(int n, int v) { if(n == 0) irqline(0, v); switch(v){ case IRQLLOHI: case 1: pit[n].output = 1; break; case 0: pit[n].output = 0; break; case IRQLTOGGLE: pit[n].output ^= 1; break; } } void pitadvance(void) { int i; int nc; PITChannel *p; vlong nt, t; int rel; for(i = 0; i < 3; i++){ p = &pit[i]; nt = nsec(); t = nt - p->lastnsec; p->lastnsec = nt; switch(p->mode){ case 0: if(p->state != 0){ nc = t / PERIOD; if(p->count <= nc) pitout(i, 1); p->count -= nc; p->lastnsec -= t % PERIOD; if(!p->output) settimer(p->lastnsec + p->count * PERIOD); } break; case 2: if(p->state != 0){ nc = t / PERIOD; if(p->count == 0 || p->count - 1 > nc) p->count -= nc; else{ rel = p->reload - 1; if(rel <= 0) rel = 65535; nc -= p->count - 1; nc %= rel; p->count = rel - nc + 1; pitout(i, IRQLLOHI); } p->lastnsec -= t % PERIOD; settimer(p->lastnsec + p->count * PERIOD); } break; case 3: if(p->state != 0){ nc = 2 * (t / PERIOD); if(p->count > nc) p->count -= nc; else{ rel = p->reload; if(rel <= 1) rel = 65536; nc -= p->count; nc %= rel; p->count = rel - nc; pitout(i, IRQLTOGGLE); } p->lastnsec -= t % PERIOD; settimer(p->lastnsec + p->count / 2 * PERIOD); } break; } } } static void pitsetreload(int n, int hi, u8int v) { PITChannel *p; p = &pit[n]; if(hi) p->reload = p->reload >> 8 | v << 8; else p->reload = p->reload & 0xff00 | v; switch(p->mode){ case 0: pitout(n, 0); if(p->access != 3 || hi){ p->count = p->reload; p->state = 1; p->lastnsec = nsec(); settimer(p->lastnsec + p->count * PERIOD); }else p->state = 0; break; case 2: case 3: if(p->state == 0 && (p->access != 3 || hi)){ p->count = p->reload; p->state = 1; p->lastnsec = nsec(); pitadvance(); } break; default: vmerror("PIT reload in mode %d not implemented", p->mode); break; } } static u32int pitio(int isin, u16int port, u32int val, int sz, void *) { int n; val = (u8int) val; pitadvance(); switch(isin << 16 | port){ case 0x10040: case 0x10041: case 0x10042: n = port & 3; switch(pit[n].readstate){ case READLO: if(pit[n].access == 3) pit[n].readstate = READHI; return pit[n].count; case READHI: if(pit[n].access == 3) pit[n].readstate = READLO; return pit[n].count >> 8; case READLATLO: pit[n].readstate = READLATHI; return pit[n].latch; case READLATHI: pit[n].readstate = pit[n].access == 1 ? READHI : READLO; return pit[n].latch >> 8; } return 0; case 0x10061: return port61 | pit[2].output << 5; case 0x40: case 0x41: case 0x42: n = port & 3; switch(pit[n].writestate){ case READLO: if(pit[n].access == 3) pit[n].writestate = READHI; pitsetreload(n, 0, val); break; case READHI: if(pit[n].access == 3) pit[n].writestate = READLO; pitsetreload(n, 1, val); break; } return 0; case 0x43: n = val >> 6; if(n == 3) return 0; if((val & ~0xc0) == 0){ pit[n].latch = pit[n].count; pit[n].readstate = READLATLO; }else{ pit[n].mode = val >> 1 & 7; pit[n].access = val >> 4 & 3; pit[n].bcd = val & 1; if(pit[n].bcd != 0) vmerror("pit: bcd mode not implemented"); switch(pit[n].mode){ case 0: case 2: case 3: break; default: vmerror("pit: mode %d not implemented", pit[n].mode); } pit[n].state = 0; pit[n].count = 0; pit[n].reload = 0; pit[n].readstate = pit[n].access == 1 ? READHI : READLO; pit[n].writestate = pit[n].access == 1 ? READHI : READLO; pit[n].lastnsec = nsec(); switch(pit[n].mode){ case 0: pitout(n, 0); break; default: pitout(n, 1); } } return 0; case 0x61: port61 = port61 & 0xf0 | val & 0x0f; return 0; } return iowhine(isin, port, val, sz, "pit"); } typedef struct I8042 I8042; struct I8042 { u8int cfg, stat, oport; int cmd; u16int buf; /* |0x100 == kbd, |0x200 == mouse, |0x400 == cmd */ } i8042 = { .cfg 0x74, .stat 0x10, .oport 0x01, .cmd -1, }; Channel *kbdch, *mousech; u8int mouseactive; typedef struct PCKeyb PCKeyb; struct PCKeyb { u8int buf[64]; u8int bufr, bufw; u8int actcmd; u8int quiet; } kbd; typedef struct PCMouse PCMouse; struct PCMouse { Mouse; u8int gotmouse; enum { MOUSERESET, MOUSESTREAM, MOUSEREMOTE, MOUSEREP = 0x10, MOUSEWRAP = 0x20, } state; u8int buf[64]; u8int bufr, bufw; u8int actcmd; u8int scaling21, res, rate; } mouse = { .res = 2, .rate = 100 }; #define keyputc(c) kbd.buf[kbd.bufw++ & 63] = (c) #define mouseputc(c) mouse.buf[mouse.bufw++ & 63] = (c) static void i8042putbuf(u16int val) { i8042.buf = val; i8042.stat = i8042.stat & ~0x20 | val >> 4 & 0x20; if((i8042.cfg & 1) != 0 && (val & 0x100) != 0){ irqline(1, 1); i8042.oport |= 0x10; } if((i8042.cfg & 2) != 0 && (val & 0x200) != 0){ irqline(12, 1); i8042.oport |= 0x20; } if(val == 0){ irqline(1, 0); irqline(12, 0); i8042.oport &= ~0x30; i8042.stat &= ~1; i8042kick(nil); }else i8042.stat |= 1; } static void kbdcmd(u8int val) { switch(kbd.actcmd){ case 0xf0: /* set scancode set */ keyputc(0xfa); if(val == 0) keyputc(1); kbd.actcmd = 0; break; case 0xed: /* set leds */ keyputc(0xfa); kbd.actcmd = 0; break; default: switch(val){ case 0xed: case 0xf0: kbd.actcmd = val; keyputc(0xfa); break; case 0xff: keyputc(0xfa); keyputc(0xaa); break; /* reset */ case 0xf5: kbd.quiet = 1; keyputc(0xfa); break; /* disable scanning */ case 0xf4: kbd.quiet = 0; keyputc(0xfa); break; /* enable scanning */ case 0xf2: keyputc(0xfa); keyputc(0xab); keyputc(0x41); break; /* keyboard id */ case 0xee: keyputc(0xee); break; /* echo */ default: vmerror("unknown kbd command %#ux", val); keyputc(0xfe); } } i8042kick(nil); } static void updatemouse(void) { Mouse m; while(nbrecv(mousech, &m) > 0){ mouse.xy = addpt(mouse.xy, m.xy); mouse.buttons = m.buttons; mouse.gotmouse = 1; } } static void clearmouse(void) { updatemouse(); mouse.xy = Pt(0, 0); mouse.gotmouse = 0; } static void mousepacket(int force) { int dx, dy; u8int b0; updatemouse(); if(!mouse.gotmouse && !force) return; dx = mouse.xy.x; dy = -mouse.xy.y; b0 = 8; if((ulong)(dx + 256) > 511) dx = dx >> 31 ^ 0xff; if((ulong)(dy + 256) > 511) dy = dy >> 31 ^ 0xff; b0 |= dx >> 5 & 0x10 | dy >> 4 & 0x20; b0 |= (mouse.buttons * 0x111 & 0x421) % 7; mouseputc(b0); mouseputc((u8int)dx); mouseputc((u8int)dy); mouse.xy.x -= dx; mouse.xy.y += dy; mouse.gotmouse = mouse.xy.x != 0 || mouse.xy.y != 0; } static void mousedefaults(void) { clearmouse(); mouse.res = 2; mouse.rate = 100; } static void mousecmd(u8int val) { if((mouse.state & MOUSEWRAP) != 0 && val != 0xec && val != 0xff){ mouseputc(val); i8042kick(nil); return; } switch(mouse.actcmd){ case 0xe8: /* set resolution */ mouse.res = val; mouseputc(0xfa); mouse.actcmd = 0; break; case 0xf3: /* set sampling rate */ mouse.rate = val; mouseputc(0xfa); mouse.actcmd = 0; break; default: switch(val){ case 0xf3: case 0xe8: mouseputc(0xfa); mouse.actcmd = val; break; case 0xff: mouseputc(0xfa); mousedefaults(); mouse.state = MOUSERESET; break; /* reset */ case 0xf6: mouseputc(0xfa); mousedefaults(); mouse.state = mouse.state & ~0xf | MOUSESTREAM; break; /* set defaults */ case 0xf5: mouseputc(0xfa); clearmouse(); if((mouse.state&0xf) == MOUSESTREAM) mouse.state &= ~MOUSEREP; break; /* disable reporting */ case 0xf4: mouseputc(0xfa); clearmouse(); if((mouse.state&0xf) == MOUSESTREAM) mouse.state |= MOUSEREP; break; /* enable reporting */ case 0xf2: mouseputc(0xfa); mouseputc(0x00); clearmouse(); break; /* report device id */ case 0xf0: mouseputc(0xfa); clearmouse(); mouse.state = mouse.state & ~0xf | MOUSEREMOTE; break; /* set remote mode */ case 0xee: mouseputc(0xfa); clearmouse(); mouse.state |= MOUSEWRAP; break; /* set wrap mode */ case 0xec: mouseputc(0xfa); clearmouse(); mouse.state &= ~MOUSEWRAP; break; /* reset wrap mode */ case 0xeb: mouseputc(0xfa); mousepacket(1); break; /* read data */ case 0xea: mouseputc(0xfa); clearmouse(); mouse.state = mouse.state & ~0xf | MOUSESTREAM; break; /* set stream mode */ case 0xe9: /* status request */ mouseputc(0xfa); mouseputc(((mouse.state & 0xf) == MOUSEREMOTE) << 6 | ((mouse.state & MOUSEREP) != 0) << 5 | mouse.scaling21 << 4 | (mouse.buttons * 0x111 & 0x142) % 7); mouseputc(mouse.res); mouseputc(mouse.rate); break; case 0xe7: mouseputc(0xfa); mouse.scaling21 = 1; break; /* set 2:1 scaling */ case 0xe6: mouseputc(0xfa); mouse.scaling21 = 0; break; /* set 1:1 scaling */ case 0x88: case 0x00: case 0x0a: /* sentelic & cypress */ case 0xe1: /* trackpoint */ mouseputc(0xfe); break; default: vmerror("unknown mouse command %#ux", val); mouseputc(0xfe); } } i8042kick(nil); } static void mousekick(void) { switch(mouse.state){ case MOUSERESET: mouseputc(0xaa); mouseputc(0); mouse.state = MOUSESTREAM; break; case MOUSESTREAM | MOUSEREP: if(mouse.actcmd == 0) mousepacket(0); break; } } void i8042kick(void *) { ulong ch; if((i8042.cfg & 0x10) == 0 && i8042.buf == 0) if(kbd.bufr != kbd.bufw) i8042putbuf(0x100 | kbd.buf[kbd.bufr++ & 63]); else if(!kbd.quiet && nbrecv(kbdch, &ch) > 0) i8042putbuf(0x100 | (u8int)ch); if((i8042.cfg & 0x20) == 0 && i8042.buf == 0){ if(mouse.bufr == mouse.bufw) mousekick(); if(mouse.bufr != mouse.bufw) i8042putbuf(0x200 | mouse.buf[mouse.bufr++ & 63]); } } static u32int i8042io(int isin, u16int port, u32int val, int sz, void *) { int rc; val = (u8int)val; switch(isin << 16 | port){ case 0x60: i8042.stat &= ~8; switch(i8042.cmd){ case 0x60: i8042.cfg = val; mouseactive = (val & 0x20) == 0; break; case 0xd1: i8042.oport = val; irqline(1, i8042.oport >> 4 & 1); irqline(12, i8042.oport >> 5 & 1); break; case 0xd2: i8042putbuf(0x100 | val); break; case 0xd3: i8042putbuf(0x200 | val); break; case 0xd4: mousecmd(val); break; case -1: kbdcmd(val); break; } i8042.cmd = -1; return 0; case 0x10060: i8042kick(nil); rc = i8042.buf; i8042putbuf(0); return rc; case 0x64: i8042.stat |= 8; switch(val){ case 0x20: i8042putbuf(0x400 | i8042.cfg); return 0; case 0xa1: i8042putbuf(0x4f1); return 0; /* no keyboard password */ case 0xa7: i8042.cfg |= 1<<5; mouseactive = 0; return 0; case 0xa8: i8042.cfg &= ~(1<<5); mouseactive = 1; return 0; case 0xa9: i8042putbuf(0x400); return 0; /* test second port */ case 0xaa: i8042putbuf(0x455); return 0; /* test controller */ case 0xab: i8042putbuf(0x400); return 0; /* test first port */ case 0xad: i8042.cfg |= 1<<4; return 0; case 0xae: i8042.cfg &= ~(1<<4); return 0; case 0xd0: i8042putbuf(0x400 | i8042.oport); return 0; case 0x60: case 0xd1: case 0xd2: case 0xd3: case 0xd4: i8042.cmd = val; return 0; case 0xf0: case 0xf2: case 0xf4: case 0xf6: /* pulse reset line */ case 0xf8: case 0xfa: case 0xfc: case 0xfe: sysfatal("i8042: system reset"); case 0xf1: case 0xf3: case 0xf5: case 0xf7: /* no-op */ case 0xf9: case 0xfb: case 0xfd: case 0xff: return 0; } vmerror("unknown i8042 command %#ux", val); return 0; case 0x10064: i8042kick(nil); return i8042.stat | i8042.cfg & 4; } return iowhine(isin, port, val, sz, "i8042"); } typedef struct UART UART; struct UART { u8int ier, fcr, lcr, lsr, mcr, scr, dll, dlh; u8int rbr, tbr; enum { UARTTXIRQ = 2, UARTRXIRQ = 1, } irq; int infd, outfd; Channel *inch, *outch; } uart[2] = { { .lsr = 0x60 }, { .lsr = 0x60 } }; static void uartkick(UART *p) { char c; irqline(4 - (p - uart), (p->irq & p->ier) != 0); if((p->irq & UARTRXIRQ) == 0 && p->inch != nil && nbrecv(p->inch, &c) > 0){ p->rbr = c; p->irq |= UARTRXIRQ; } if((p->lsr & 1<<5) == 0){ if(p->outch == nil){ p->lsr |= 3<<5; p->irq |= UARTTXIRQ; }else if(nbsend(p->outch, &p->tbr) > 0){ p->tbr = 0; p->lsr |= 3<<5; p->irq |= UARTTXIRQ; } } irqline(4 - (p - uart), (p->irq & p->ier) != 0); } static u32int uartio(int isin, u16int port, u32int val, int sz, void *) { UART *p; int rc; if((port & 0xff8) == 0x3f8) p = &uart[0]; else if((port & 0xff8) == 0x2f8) p = &uart[1]; else return 0; val = (u8int) val; switch(isin << 4 | port & 7){ case 0x00: if((p->lcr & 1<<7) != 0) p->dll = val; else{ /* transmit byte */ if((p->mcr & 1<<4) != 0){ p->irq |= UARTRXIRQ; p->rbr = val; p->lsr |= 3<<5; }else{ p->tbr = val; p->lsr &= ~(3<<5); p->irq &= ~UARTTXIRQ; } uartkick(p); } return 0; case 0x01: if((p->lcr & 1<<7) != 0) p->dlh = val; else p->ier = val & 15; return 0; case 0x02: p->fcr = val; return 0; case 0x03: p->lcr = val; return 0; case 0x04: p->mcr = val & 0x1f; return 0; case 0x07: p->scr = val; return 0; case 0x10: if((p->lcr & 1<<7) != 0) return p->dll; p->irq &= ~UARTRXIRQ; rc = p->rbr; uartkick(p); return rc; case 0x11: if((p->lcr & 1<<7) != 0) return p->dlh; return p->ier; case 0x12: rc = 0; uartkick(p); if((p->irq & UARTRXIRQ) != 0) return rc | 4; else if((p->irq & UARTTXIRQ) != 0){ p->irq &= ~UARTTXIRQ; uartkick(p); return rc | 2; }else return rc | 1; case 0x13: return p->lcr; case 0x14: return p->mcr; case 0x15: uartkick(p); rc = p->lsr; /* line status */ if((p->irq & UARTRXIRQ) != 0) rc |= 1; return rc; case 0x16: /* modem status */ if((p->mcr & 0x10) != 0) return (p->mcr << 1 & 2 | p->mcr >> 1 & 1 | p->mcr & 0xc) << 4; return 0x90; /* DCD + CTS asserted */ case 0x17: return p->scr; } return iowhine(isin, port, val, sz, "uart"); } static void uartrxproc(void *uv) { UART *u; char buf[128], *p; int rc; int eofctr; threadsetname("uart rx"); u = uv; eofctr = 0; for(;;){ rc = read(u->infd, buf, sizeof(buf)); if(rc < 0){ vmerror("read(uartrx): %r"); threadexits("read: %r"); } if(rc == 0){ if(++eofctr == 100){ /* keep trying but give up eventually */ vmerror("read(uartrx): eof"); threadexits("read: eof"); } continue; }else eofctr = 0; for(p = buf; p < buf + rc; p++){ send(u->inch, p); sendnotif((void(*)(void*))uartkick, u); } } } static void uarttxproc(void *uv) { UART *u; char buf[128], *p; threadsetname("uart tx"); u = uv; for(;;){ p = buf; recv(u->outch, p); p++; sendnotif((void(*)(void*))uartkick, u); sleep(1); while(sendnotif((void(*)(void*))uartkick, u), p < buf+sizeof(buf) && nbrecv(u->outch, p) > 0) p++; if(write(u->outfd, buf, p - buf) < p - buf) vmerror("write(uarttx): %r"); } } void uartinit(int n, char *cfg) { char *p, *infn, *outfn; p = strchr(cfg, ','); if(p == nil){ infn = cfg; outfn = cfg; }else{ *p = 0; infn = cfg; outfn = p + 1; } if(infn != nil && *infn != 0){ uart[n].infd = open(infn, OREAD); if(uart[n].infd < 0) sysfatal("open: %r"); uart[n].inch = chancreate(sizeof(char), 256); proccreate(uartrxproc, &uart[n], 4096); } if(outfn != nil && *outfn != 0){ uart[n].outfd = open(outfn, OWRITE); if(uart[n].outfd < 0) sysfatal("open: %r"); uart[n].outch = chancreate(sizeof(char), 256); proccreate(uarttxproc, &uart[n], 4096); } } /* floppy dummy controller */ typedef struct Floppy Floppy; struct Floppy { u8int dor; u8int dump, irq; u8int fdc; u8int inq[16]; u8int inqr, inqw; } fdc; #define fdcputc(c) (fdc.inq[fdc.inqw++ & 15] = (c)) static void fdccmd(u8int val) { vmdebug("fdc: cmd %#x", val); switch(val){ case 0x03: fdc.dump = 2; break; case 0x07: fdc.dump = 1; fdc.irq = 1; break; case 0x08: irqline(6, 0); fdcputc(0x80); fdcputc(0); break; default: vmerror("unknown fdc command %.2x", val); } } static u32int fdcio(int isin, u16int port, u32int val, int sz, void *) { u8int rc; if(sz != 1) vmerror("fdc: access size %d != 1", sz); val = (u8int) val; switch(isin << 4 | port & 7){ case 0x02: fdc.dor = val; return 0; case 0x05: if(fdc.dump > 0){ if(--fdc.dump == 0 && fdc.inqr == fdc.inqw && fdc.irq != 0){ irqline(6, 1); fdc.irq = 0; } }else if(fdc.inqr == fdc.inqw) fdccmd(val); return 0; case 0x12: return fdc.dor; case 0x14: rc = 0x80; if(fdc.dump == 0 && fdc.inqr != fdc.inqw) rc |= 0x40; if(fdc.dump != 0 || fdc.inqr != fdc.inqw) rc |= 0x10; return rc; case 0x15: if(fdc.dump == 0 && fdc.inqr != fdc.inqw) return fdc.inq[fdc.inqr++ & 15]; return 0; } return iowhine(isin, port, val, sz, "fdc"); } static u32int nopio(int, u16int, u32int, int, void *) { return -1; } u32int iowhine(int isin, u16int port, u32int val, int sz, void *mod) { if(isin) vmerror("%s%sread from unknown i/o port %#ux ignored (sz=%d, pc=%#ullx)", mod != nil ? mod : "", mod != nil ? ": " : "", port, sz, rget(RPC)); else vmerror("%s%swrite to unknown i/o port %#ux ignored (val=%#ux, sz=%d, pc=%#ullx)", mod != nil ? mod : "", mod != nil ? ": " : "", port, val, sz, rget(RPC)); return -1; } typedef struct IOHandler IOHandler; struct IOHandler { u16int lo, hi; u32int (*io)(int, u16int, u32int, int, void *); void *aux; }; u32int vgaio(int, u16int, u32int, int, void *); u32int pciio(int, u16int, u32int, int, void *); u32int vesaio(int, u16int, u32int, int, void *); u32int ideio(int, u16int, u32int, int, void *); IOHandler handlers[] = { 0x20, 0x21, picio, nil, 0x40, 0x43, pitio, nil, 0x70, 0x71, rtcio, nil, 0xa0, 0xa1, picio, nil, 0x60, 0x60, i8042io, nil, 0x61, 0x61, pitio, nil, /* pc speaker */ 0x64, 0x64, i8042io, nil, 0x2f8, 0x2ff, uartio, nil, 0x3b0, 0x3bb, vgaio, nil, 0x3c0, 0x3df, vgaio, nil, 0x3f8, 0x3ff, uartio, nil, 0x4d0, 0x4d1, picio, nil, 0xcf8, 0xcff, pciio, nil, 0xfee0, 0xfeef, vesaio, nil, 0x170, 0x177, ideio, nil, /* ide secondary */ 0x376, 0x376, ideio, nil, /* ide secondary (aux) */ 0x1f0, 0x1f7, ideio, nil, /* ide primary */ 0x3f6, 0x3f6, ideio, nil, /* ide primary (aux) */ 0x3f0, 0x3f7, fdcio, nil, /* floppy */ 0x080, 0x080, nopio, nil, /* dma -- used by linux for delay by dummy write */ 0x084, 0x084, nopio, nil, /* dma -- used by openbsd for delay by dummy read */ 0x100, 0x110, nopio, nil, /* elnk3 */ 0x240, 0x25f, nopio, nil, /* ne2000 */ 0x278, 0x27a, nopio, nil, /* LPT1 / ISA PNP */ 0x280, 0x29f, nopio, nil, /* ne2000 */ 0x2e8, 0x2ef, nopio, nil, /* COM4 */ 0x300, 0x31f, nopio, nil, /* ne2000 */ 0x320, 0x32f, nopio, nil, /* etherexpress */ 0x330, 0x33f, nopio, nil, /* uha scsi */ 0x340, 0x35f, nopio, nil, /* adaptec scsi */ 0x360, 0x373, nopio, nil, /* isolan */ 0x378, 0x37a, nopio, nil, /* LPT1 */ 0x3e0, 0x3e5, nopio, nil, /* cardbus or isa pci bridges */ 0x3e8, 0x3ef, nopio, nil, /* COM3 */ 0x650, 0x65f, nopio, nil, /* 3c503 ethernet */ 0x778, 0x77a, nopio, nil, /* LPT1 (ECP) */ 0xa79, 0xa79, nopio, nil, /* isa pnp */ }; static u32int io0(int dir, u16int port, u32int val, int size) { IOHandler *h; extern PCIBar iobars; PCIBar *p; for(h = handlers; h < handlers + nelem(handlers); h++) if(port >= h->lo && port <= h->hi) return h->io(dir, port, val, size, h->aux); for(p = iobars.busnext; p != &iobars; p = p->busnext) if(port >= p->addr && port < p->addr + p->length) return p->io(dir, port - p->addr, val, size, p->aux); return iowhine(dir, port, val, size, nil); } u32int iodebug[32]; u32int io(int isin, u16int port, u32int val, int sz) { int dbg; dbg = port < 0x400 && (iodebug[port >> 5] >> (port & 31) & 1) != 0; if(isin){ val = io0(isin, port, val, sz); if(sz == 1) val = (u8int)val; else if(sz == 2) val = (u16int)val; if(dbg) vmdebug("in %#.4ux <- %#.*ux", port, sz*2, val); return val; }else{ if(sz == 1) val = (u8int)val; else if(sz == 2) val = (u16int)val; io0(isin, port, val, sz); if(dbg) vmdebug("out %#.4ux <- %#.*ux", port, sz*2, val); return 0; } }