/*************************************************************************************** * Genesis Plus * 68k bus address decoding * * Copyright (C) 1998, 1999, 2000, 2001, 2002, 2003 Charles Mac Donald (original code) * Eke-Eke (2007,2008,2009), additional code & fixes for the GCN/Wii port * * This program is free software; you can redistribute it and/or modify * it under the terms of the GNU General Public License as published by * the Free Software Foundation; either version 2 of the License, or * (at your option) any later version. * * This program is distributed in the hope that it will be useful, * but WITHOUT ANY WARRANTY; without even the implied warranty of * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the * GNU General Public License for more details. * * You should have received a copy of the GNU General Public License * along with this program; if not, write to the Free Software * Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA * ****************************************************************************************/ #include "m68kcpu.h" #include "shared.h" /*--------------------------------------------------------------------------*/ /* Unused area (return open bus data, i.e prefetched instruction word) */ /*--------------------------------------------------------------------------*/ unsigned int m68k_read_bus_8(unsigned int address) { #ifdef LOGERROR error("Unused read8 %08X (%08X)\n", address, m68k_get_reg (NULL, M68K_REG_PC)); #endif return m68k_read_pcrelative_8(REG_PC | (address & 1)); } unsigned int m68k_read_bus_16(unsigned int address) { #ifdef LOGERROR error("Unused read16 %08X (%08X)\n", address, m68k_get_reg (NULL, M68K_REG_PC)); #endif return m68k_read_pcrelative_16(REG_PC); } void m68k_unused_8_w (unsigned int address, unsigned int data) { #ifdef LOGERROR error("Unused write8 %08X = %02X (%08X)\n", address, data, m68k_get_reg (NULL, M68K_REG_PC)); #endif } void m68k_unused_16_w (unsigned int address, unsigned int data) { #ifdef LOGERROR error("Unused write16 %08X = %04X (%08X)\n", address, data, m68k_get_reg (NULL, M68K_REG_PC)); #endif } /*--------------------------------------------------------------------------*/ /* Illegal area (cause system to lock-up since !DTACK is not returned) */ /*--------------------------------------------------------------------------*/ void m68k_lockup_w_8 (unsigned int address, unsigned int data) { #ifdef LOGERROR error ("Lockup %08X = %02X (%08X)\n", address, data, m68k_get_reg (NULL, M68K_REG_PC)); #endif if (!config.force_dtack) { m68k_pulse_halt(); } } void m68k_lockup_w_16 (unsigned int address, unsigned int data) { #ifdef LOGERROR error ("Lockup %08X = %04X (%08X)\n", address, data, m68k_get_reg (NULL, M68K_REG_PC)); #endif if (!config.force_dtack) { m68k_pulse_halt(); } } unsigned int m68k_lockup_r_8 (unsigned int address) { #ifdef LOGERROR error ("Lockup %08X.b (%08X)\n", address, m68k_get_reg (NULL, M68K_REG_PC)); #endif if (!config.force_dtack) { m68k_pulse_halt(); } return m68k_read_pcrelative_8(REG_PC | (address & 1)); } unsigned int m68k_lockup_r_16 (unsigned int address) { #ifdef LOGERROR error ("Lockup %08X.w (%08X)\n", address, m68k_get_reg (NULL, M68K_REG_PC)); #endif if (!config.force_dtack) { m68k_pulse_halt(); } return m68k_read_pcrelative_16(REG_PC); } /*--------------------------------------------------------------------------*/ /* cartridge EEPROM */ /*--------------------------------------------------------------------------*/ unsigned int eeprom_read_byte(unsigned int address) { if (address == eeprom.type.sda_out_adr) { return eeprom_read(address, 0); } return READ_BYTE(cart.rom, address); } unsigned int eeprom_read_word(unsigned int address) { if (address == (eeprom.type.sda_out_adr & 0xfffffe)) { return eeprom_read(address, 1); } return *(uint16 *)(cart.rom + address); } void eeprom_write_byte(unsigned int address, unsigned int data) { if ((address == eeprom.type.sda_in_adr) || (address == eeprom.type.scl_adr)) { eeprom_write(address, data, 0); return; } m68k_unused_8_w(address, data); } void eeprom_write_word(unsigned int address, unsigned int data) { if ((address == (eeprom.type.sda_in_adr & 0xfffffe)) || (address == (eeprom.type.scl_adr & 0xfffffe))) { eeprom_write(address, data, 1); return; } m68k_unused_16_w (address, data); } /*--------------------------------------------------------------------------*/ /* Z80 bus (accessed through I/O chip) */ /*--------------------------------------------------------------------------*/ unsigned int z80_read_byte(unsigned int address) { switch ((address >> 13) & 3) { case 2: /* YM2612 */ { return fm_read(mcycles_68k, address & 3); } case 3: /* Misc */ { if ((address & 0xff00) == 0x7f00) { /* VDP (through 68k bus) */ return m68k_lockup_r_8(address); } return (m68k_read_bus_8(address) | 0xff); } default: /* ZRAM */ { return zram[address & 0x1fff]; } } } unsigned int z80_read_word(unsigned int address) { unsigned int data = z80_read_byte(address); return (data | (data << 8)); } void z80_write_byte(unsigned int address, unsigned int data) { switch ((address >> 13) & 3) { case 2: /* YM2612 */ { fm_write(mcycles_68k, address & 3, data); return; } case 3: { switch ((address >> 8) & 0x7f) { case 0x60: /* Bank register */ { gen_zbank_w(data & 1); return; } case 0x7f: /* VDP */ { m68k_lockup_w_8(address, data); return; } default: { m68k_unused_8_w(address, data); return; } } } default: /* ZRAM */ { zram[address & 0x1fff] = data; mcycles_68k += 8; /* ZRAM access latency (fixes Pacman 2: New Adventures) */ return; } } } void z80_write_word(unsigned int address, unsigned int data) { z80_write_byte(address, data >> 8); } /*--------------------------------------------------------------------------*/ /* I/O Control */ /*--------------------------------------------------------------------------*/ unsigned int ctrl_io_read_byte(unsigned int address) { switch ((address >> 8) & 0xff) { case 0x00: /* I/O chip */ { if (!(address & 0xe0)) { return io_read((address >> 1) & 0x0f); } return m68k_read_bus_8(address); } case 0x11: /* BUSACK */ { if (!(address & 1)) { unsigned int data = m68k_read_pcrelative_8(REG_PC) & 0xfe; if (zstate == 3) { return data; } return (data | 0x01); } return m68k_read_bus_8(address); } case 0x30: /* TIME */ { if (cart.hw.time_r) { unsigned int data = cart.hw.time_r(address); if (address & 1) { return (data & 0xff); } return (data >> 8); } return m68k_read_bus_8(address); } case 0x41: /* OS ROM */ { if (address & 1) { unsigned int data = m68k_read_pcrelative_8(REG_PC) & 0xfe; return (gen_bankswitch_r() | data); } return m68k_read_bus_8(address); } case 0x10: /* MEMORY MODE */ case 0x12: /* RESET */ case 0x20: /* MEGA-CD */ case 0x40: /* TMSS */ case 0x44: /* RADICA */ case 0x50: /* SVP REGISTERS */ { return m68k_read_bus_8(address); } default: /* Invalid address */ { return m68k_lockup_r_8(address); } } } unsigned int ctrl_io_read_word(unsigned int address) { switch ((address >> 8) & 0xff) { case 0x00: /* I/O chip */ { if (!(address & 0xe0)) { unsigned int data = io_read((address >> 1) & 0x0f); return (data << 8 | data); } return m68k_read_bus_16(address); } case 0x11: /* BUSACK */ { unsigned int data = m68k_read_pcrelative_16(REG_PC) & 0xfeff; if (zstate == 3) { return data; } return (data | 0x0100); } case 0x30: /* TIME */ { if (cart.hw.time_r) { return cart.hw.time_r(address); } return m68k_read_bus_16(address); } case 0x50: /* SVP */ { if ((address & 0xfd) == 0) { return svp->ssp1601.gr[SSP_XST].h; } if ((address & 0xff) == 4) { unsigned int data = svp->ssp1601.gr[SSP_PM0].h; svp->ssp1601.gr[SSP_PM0].h &= ~1; return data; } return m68k_read_bus_16(address); } case 0x10: /* MEMORY MODE */ case 0x12: /* RESET */ case 0x20: /* MEGA-CD */ case 0x40: /* TMSS */ case 0x41: /* OS ROM */ case 0x44: /* RADICA */ { return m68k_read_bus_16(address); } default: /* Invalid address */ { return m68k_lockup_r_16(address); } } } void ctrl_io_write_byte(unsigned int address, unsigned int data) { switch ((address >> 8) & 0xff) { case 0x00: /* I/O chip */ { if ((address & 0xe1) == 0x01) { /* get /LWR only */ io_write((address >> 1) & 0x0f, data); return; } m68k_unused_8_w(address, data); return; } case 0x11: /* BUSREQ */ { if (!(address & 1)) { gen_zbusreq_w(data & 1, mcycles_68k); return; } m68k_unused_8_w(address, data); return; } case 0x12: /* RESET */ { if (!(address & 1)) { gen_zreset_w(data & 1, mcycles_68k); return; } m68k_unused_8_w(address, data); return; } case 0x30: /* TIME */ { cart.hw.time_w(address, data); return; } case 0x41: /* OS ROM */ { if (address & 1) { gen_bankswitch_w(data & 1); return; } m68k_unused_8_w(address, data); return; } case 0x10: /* MEMORY MODE */ case 0x20: /* MEGA-CD */ case 0x40: /* TMSS */ case 0x44: /* RADICA */ case 0x50: /* SVP REGISTERS */ { m68k_unused_8_w(address, data); return; } default: /* Invalid address */ { m68k_lockup_w_8(address, data); return; } } } void ctrl_io_write_word(unsigned int address, unsigned int data) { switch ((address >> 8) & 0xff) { case 0x00: /* I/O chip */ { if (!(address & 0xe0)) { io_write((address >> 1) & 0x0f, data & 0xff); return; } m68k_unused_16_w(address, data); return; } case 0x11: /* BUSREQ */ { gen_zbusreq_w((data >> 8) & 1, mcycles_68k); return; } case 0x12: /* RESET */ { gen_zreset_w((data >> 8) & 1, mcycles_68k); return; } case 0x30: /* TIME */ { cart.hw.time_w(address & 0xfe, data >> 8); cart.hw.time_w(address, data & 0xff); return; } case 0x40: /* TMSS */ { gen_tmss_w(address & 3, data); break; } case 0x50: /* SVP REGISTERS */ { if (!(address & 0xfd)) { svp->ssp1601.gr[SSP_XST].h = data; svp->ssp1601.gr[SSP_PM0].h |= 2; svp->ssp1601.emu_status &= ~SSP_WAIT_PM0; return; } m68k_unused_16_w(address, data); return; } case 0x10: /* MEMORY MODE */ case 0x20: /* MEGA-CD */ case 0x41: /* OS ROM */ case 0x44: /* RADICA */ { m68k_unused_16_w (address, data); return; } default: /* Invalid address */ { m68k_lockup_w_16 (address, data); return; } } } /*--------------------------------------------------------------------------*/ /* VDP */ /*--------------------------------------------------------------------------*/ unsigned int vdp_read_byte(unsigned int address) { switch (address & 0xfd) { case 0x00: /* DATA */ { return (vdp_data_r() >> 8); } case 0x01: /* DATA */ { return (vdp_data_r() & 0xff); } case 0x04: /* CTRL */ { return (((vdp_ctrl_r(mcycles_68k) >> 8) & 3) | (m68k_read_pcrelative_8(REG_PC) & 0xfc)); } case 0x05: /* CTRL */ { return (vdp_ctrl_r(mcycles_68k) & 0xff); } case 0x08: /* HVC */ case 0x0c: { return (vdp_hvc_r(mcycles_68k) >> 8); } case 0x09: /* HVC */ case 0x0d: { return (vdp_hvc_r(mcycles_68k) & 0xff); } case 0x18: /* Unused */ case 0x19: case 0x1c: case 0x1d: { return m68k_read_bus_8(address); } default: /* Invalid address */ { return m68k_lockup_r_8(address); } } } unsigned int vdp_read_word(unsigned int address) { switch (address & 0xfc) { case 0x00: /* DATA */ { return vdp_data_r(); } case 0x04: /* CTRL */ { return ((vdp_ctrl_r(mcycles_68k) & 0x3FF) | (m68k_read_pcrelative_16(REG_PC) & 0xFC00)); } case 0x08: /* HVC */ case 0x0c: { return vdp_hvc_r(mcycles_68k); } case 0x18: /* Unused */ case 0x1c: { return m68k_read_bus_16(address); } default: /* Invalid address */ { return m68k_lockup_r_16(address); } } } void vdp_write_byte(unsigned int address, unsigned int data) { switch (address & 0xfc) { case 0x00: /* Data port */ { vdp_data_w(data << 8 | data); return; } case 0x04: /* Control port */ { vdp_ctrl_w(data << 8 | data); return; } case 0x10: /* PSG */ case 0x14: { if (address & 1) { psg_write(mcycles_68k, data); return; } m68k_unused_8_w(address, data); return; } case 0x18: /* Unused */ { m68k_unused_8_w(address, data); return; } case 0x1c: /* TEST register */ { vdp_test_w(data << 8 | data); return; } default: /* Invalid address */ { m68k_lockup_w_8(address, data); return; } } } void vdp_write_word(unsigned int address, unsigned int data) { switch (address & 0xfc) { case 0x00: /* DATA */ { vdp_data_w(data); return; } case 0x04: /* CTRL */ { vdp_ctrl_w(data); return; } case 0x10: /* PSG */ case 0x14: { psg_write(mcycles_68k, data & 0xff); return; } case 0x18: /* Unused */ { m68k_unused_16_w(address, data); return; } case 0x1c: /* Test register */ { vdp_test_w(data); return; } default: /* Invalid address */ { m68k_lockup_w_16 (address, data); return; } } } /******* PICO ************************************************/ unsigned int pico_read_byte(unsigned int address) { /* PICO */ switch (address & 0xff) { case 0x01: /* VERSION register */ { return 0x40; } case 0x03: /* IO register */ { unsigned int retval = 0xff; if (input.pad[0] & INPUT_B) retval &= ~0x10; if (input.pad[0] & INPUT_A) retval &= ~0x80; if (input.pad[0] & INPUT_UP) retval &= ~0x01; if (input.pad[0] & INPUT_DOWN) retval &= ~0x02; if (input.pad[0] & INPUT_LEFT) retval &= ~0x04; if (input.pad[0] & INPUT_RIGHT) retval &= ~0x08; retval &= ~0x20; retval &= ~0x40; return retval; } case 0x05: /* MSB PEN X coordinate */ { return (input.analog[0][0] >> 8); } case 0x07: /* LSB PEN X coordinate */ { return (input.analog[0][0] & 0xff); } case 0x09: /* MSB PEN Y coordinate */ { return (input.analog[0][1] >> 8); } case 0x0b: /* LSB PEN Y coordinate */ { return (input.analog[0][1] & 0xff); } case 0x0d: /* PAGE register (TODO) */ { return pico_page[pico_current]; } case 0x10: /* PCM registers (TODO) */ { return 0x80; } default: { return m68k_read_bus_8(address); } } } unsigned int pico_read_word(unsigned int address) { return (pico_read_byte(address | 1) | (m68k_read_bus_8(address) << 8)); }