unsigned SMP::port_read(unsigned addr) { return apuram[0xf4 + (addr & 3)]; } void SMP::port_write(unsigned addr, unsigned data) { apuram[0xf4 + (addr & 3)] = data; } unsigned SMP::mmio_read(unsigned addr) { switch(addr) { case 0xf2: return status.dsp_addr; case 0xf3: return dsp.read(status.dsp_addr & 0x7f); case 0xf4: case 0xf5: case 0xf6: case 0xf7: synchronize_cpu(); return cpu.port_read(addr); case 0xf8: return status.ram00f8; case 0xf9: return status.ram00f9; case 0xfd: { unsigned result = timer0.stage3_ticks & 15; timer0.stage3_ticks = 0; return result; } case 0xfe: { unsigned result = timer1.stage3_ticks & 15; timer1.stage3_ticks = 0; return result; } case 0xff: { unsigned result = timer2.stage3_ticks & 15; timer2.stage3_ticks = 0; return result; } } return 0x00; } void SMP::mmio_write(unsigned addr, unsigned data) { switch(addr) { case 0xf1: status.iplrom_enable = data & 0x80; if(data & 0x30) { synchronize_cpu(); if(data & 0x20) { cpu.port_write(3, 0x00); cpu.port_write(2, 0x00); } if(data & 0x10) { cpu.port_write(1, 0x00); cpu.port_write(0, 0x00); } } if(timer2.enable == false && (data & 0x04)) { timer2.stage2_ticks = 0; timer2.stage3_ticks = 0; } timer2.enable = data & 0x04; if(timer1.enable == false && (data & 0x02)) { timer1.stage2_ticks = 0; timer1.stage3_ticks = 0; } timer1.enable = data & 0x02; if(timer0.enable == false && (data & 0x01)) { timer0.stage2_ticks = 0; timer0.stage3_ticks = 0; } timer0.enable = data & 0x01; break; case 0xf2: status.dsp_addr = data; break; case 0xf3: if(status.dsp_addr & 0x80) break; dsp.write(status.dsp_addr, data); break; case 0xf4: case 0xf5: case 0xf6: case 0xf7: synchronize_cpu(); port_write(addr, data); break; case 0xf8: status.ram00f8 = data; break; case 0xf9: status.ram00f9 = data; break; case 0xfa: timer0.target = data; break; case 0xfb: timer1.target = data; break; case 0xfc: timer2.target = data; break; } }