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#include <u.h>
#include <libc.h>
#include <thread.h>
#include "dat.h"
#include "fns.h"
u16int ram[32768], vram[32768];
u16int cram[64], vsram[40];
u32int cramc[64];
u8int zram[8192];
u8int reg[32];
u8int ctl[15];
u8int dma;
u8int vdplatch;
u16int vdpaddr, vdpdata;
u8int z80bus = RESET;
u16int z80bank;
u8int
regread(u16int a)
{
u16int v;
switch(a | 1){
case 0x0001: return 0xa0;
case 0x0003:
v = keys;
if((ctl[0] & 0x40) == 0)
v >>= 8;
return ctl[0] & 0xc0 | v & 0x3f;
case 0x0005:
case 0x0007:
return ctl[1] & 0xc0 | 0x3f;
case 0x0009: case 0x000b: case 0x000d:
return ctl[a-3>>1];
case 0x1101: return (~z80bus & BUSACK) << 7;
}
sysfatal("read from 0xa1%.4ux (pc=%#.6ux)", a, curpc);
return 0;
}
void
regwrite(u16int a, u16int v)
{
switch(a | 1){
case 0x0003: case 0x0005: case 0x0007:
case 0x0009: case 0x000b: case 0x000d:
ctl[a-3>>1] = v;
return;
case 0x1101:
z80bus = z80bus & ~BUSREQ | v >> 8 & BUSREQ;
return;
case 0x1201:
if((v & 1<<8) == 0){
z80bus |= RESET;
z80bus &= ~BUSACK;
}else
z80bus &= ~RESET;
return;
}
sysfatal("write to 0xa1%.4x", a);
}
void
vdpwrite(u16int v)
{
u8int a;
if((vdplatch & 0x80) == 0){
if((v & 0xc000) == 0x8000){
a = v >> 8 & 0x1f;
reg[a] = v & 0xff;
if(a == 0x0c)
vdpmode();
vdplatch = 0;
return;
}
vdplatch = vdplatch & 0xfc | v >> 14 | 0x80;
vdpaddr = vdpaddr & 0xc000 | v & 0x3fff;
}else{
vdplatch = vdplatch & 0x03 | v >> 2 & 0x1c;
vdpaddr = vdpaddr & 0x3fff | v << 14 & 0xc000;
if((v & 0x80) != 0 && (reg[MODE2] & DMAEN) != 0){
dma = reg[23] >> 6 & 3;
if(dma == 0)
dma++;
}
}
}
void
cramwrite(u16int a, u16int v)
{
u32int w;
cram[a/2] = v;
w = v << 12 & 0xe00000 | v << 8 & 0xe000 | v << 4 & 0xe0;
cramc[a/2] = w;
}
u16int
memread(u32int a)
{
u16int v;
switch(a >> 21 & 7){
case 0: case 1: return prg[(a % nprg) / 2];
case 5:
switch(a >> 16 & 0xff){
case 0xa0:
if((z80bus & BUSACK) != 0)
v = z80read(a & 0x7fff);
else
v = 0;
return v << 8 | v;
case 0xa1:
v = regread(a);
return v << 8 | v;
}
goto invalid;
case 6:
if((a & 0xe700e0) != 0xc00000)
goto invalid;
switch(a & 30){
case 0: case 2:
vdplatch &= 0x7f;
switch(vdplatch & 0xf){
case 0:
v = vram[vdpaddr/2];
vdpaddr += reg[AUTOINC];
break;
case 4:
v = vdpaddr & 0x7f;
if(v < 80)
v = vsram[v / 2];
else
v = 0;
vdpaddr = (vdpaddr + reg[AUTOINC]) & 0x7f;
break;
case 8:
v = cram[(vdpaddr & 0x7f) / 2];
vdpaddr = (vdpaddr + reg[AUTOINC]) & 0x7f;
break;
default: v = 0;
}
return v;
case 4: case 6:
vdplatch &= 0x7f;
v = vdpstat;
if(dma != 0 && dma != 2)
v |= STATDMA;
if(vdpx >= 0xe4 || vdpx < 0x08)
v |= STATHBL;
return v;
default:
goto invalid;
}
case 7: return ram[((u16int)a) / 2];
default:
invalid:
sysfatal("read from %#.6ux (pc=%#.6ux)", a, curpc);
return 0;
}
}
void
memwrite(u32int a, u16int v, u16int m)
{
u16int *p;
u16int w;
if(0 && (a & 0xe0fffe) == 0xe0b1f4)
print("%x %x %x\n", curpc, v, m);
switch((a >> 21) & 7){
case 5:
switch(a >> 16 & 0xff){
case 0xa0:
if((z80bus & BUSACK) != 0)
z80write(a & 0x7fff, v >> 8);
return;
case 0xa1:
regwrite(a, v >> 8);
return;
default:
goto invalid;
}
case 6:
if((a & 0xe700e0) != 0xc00000)
goto invalid;
switch(a & 30){
case 0: case 2:
if(dma == 2){
dma = 4;
vdpdata = v >> 8;
p = &vram[vdpaddr / 2];
if((vdpaddr & 1) == 0)
*p = *p & 0xff | v << 8;
else
*p = *p & 0xff00 | v & 0xff;
return;
}
vdplatch &= 0x7f;
switch(vdplatch & 0xf){
case 1:
if((vdpaddr & 1) != 0)
v = v << 8 | v >> 8;
p = &vram[vdpaddr / 2];
*p = *p & ~m | v & m;
vdpaddr += reg[AUTOINC];
return;
case 3:
cramwrite(vdpaddr & 0x7f, v);
vdpaddr = (vdpaddr + reg[AUTOINC]) & 0x7f;
return;
case 5:
w = vdpaddr & 0x7f;
if(w < 80)
vsram[w / 2] = v;
vdpaddr = (vdpaddr + reg[AUTOINC]) & 0x7f;
return;
default:
return;
}
case 4: case 6:
vdpwrite(v);
return;
case 16: case 18: case 20: case 22:
return;
default:
goto invalid;
}
case 7:
p = &ram[((u16int)a) / 2];
*p = *p & ~m | v & m;
break;
default:
invalid:
sysfatal("write to %#.6x (pc=%#.6x)", a, curpc);
}
}
void
dmastep(void)
{
u16int v, *p;
u32int a;
switch(dma){
case 1:
a = reg[DMASRC0] << 1 | reg[DMASRC1] << 9 | reg[DMASRC2] << 17;
v = memread(a);
if(++reg[DMASRC0] == 0)
reg[DMASRC1]++;
switch(vdplatch & 0x7){
case 1:
if((vdpaddr & 1) != 0)
v = v >> 8 | v << 8;
vram[vdpaddr / 2] = v;
break;
case 3:
if(vdpaddr > 0x7f)
dma = 0;
else
cramwrite(vdpaddr, v);
break;
case 5:
if(vdpaddr < 80)
vsram[vdpaddr / 2] = v;
break;
}
break;
case 2:
return;
case 3:
a = reg[DMASRC0] | reg[DMASRC1] << 8;
v = vram[a / 2];
if((a & 1) == 0)
v = v >> 8;
if(++reg[DMASRC0] == 0)
reg[DMASRC1]++;
p = &vram[vdpaddr / 2];
if((vdpaddr & 1) != 0)
*p = *p & 0xff00 | v & 0xff;
else
*p = *p & 0xff | v << 8;
break;
case 4:
p = &vram[vdpaddr / 2];
if((vdpaddr & 1) == 0)
*p = *p & 0xff00 | vdpdata;
else
*p = *p & 0xff | vdpdata << 8;
break;
}
vdpaddr += reg[AUTOINC];
if(--reg[DMACL] == 0 && reg[DMACH]-- == 0)
dma = 0;
}
u8int
z80read(u16int a)
{
switch(a >> 13){
case 0:
case 1:
return zram[a & 0x1fff];
case 2:
case 3:
sysfatal("z80 read from %#.4x\n", a);
default:
return memread(z80bank << 15 | a & 0x7fff);
}
}
void
z80write(u16int a, u8int v)
{
switch(a >> 13){
case 0:
case 1:
zram[a & 0x1fff] = v;
return;
case 2:
case 3:
sysfatal("z80 write to %#.4x\n", a);
default:
memwrite(z80bank << 15 | a & 0x7ffe, v << 8 | v, (a & 1) != 0 ? 0xff : 0xff00);
}
}
u32int irql[8] = {[6] INTVBL, [4] INTHOR};
int
intack(int l)
{
switch(l){
case 4:
irq &= ~INTHOR;
break;
case 6:
irq &= ~INTVBL;
break;
}
return 24 + l;
}
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