/*************************************************************************************** * Genesis Plus * Genesis internals & Bus controller * * 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 "shared.h" uint8 tmss[4]; /* TMSS security register */ uint8 bios_rom[0x800]; /* OS ROM */ uint8 work_ram[0x10000]; /* 68K RAM */ uint8 zram[0x2000]; /* Z80 RAM */ uint32 zbank; /* Z80 bank window address */ uint8 zstate; /* Z80 bus state (d0 = BUSACK, d1 = /RESET) */ /* PICO data */ uint8 pico_current; uint8 pico_page[7]; /*--------------------------------------------------------------------------*/ /* Init, reset, shutdown functions */ /*--------------------------------------------------------------------------*/ void gen_init(void) { int i; /* initialize CPUs */ m68k_set_cpu_type(M68K_CPU_TYPE_68000); m68k_init(); z80_init(0,z80_irq_callback); /* initialize 68k mapped memory */ /* $000000-$7fffff is affected to cartridge area (see cart_hw.c) */ /* $800000-$ffffff is affected to WRAM (see VDP DMA) */ for (i=0x80; i<0x100; i++) { m68k_memory_map[i].base = work_ram; m68k_memory_map[i].read8 = NULL; m68k_memory_map[i].read16 = NULL; m68k_memory_map[i].write8 = NULL; m68k_memory_map[i].write16 = NULL; zbank_memory_map[i].read = NULL; zbank_memory_map[i].write = NULL; } /* initialize 68k memory handlers */ for (i=0x80; i<0xe0; i++) { /* illegal area */ m68k_memory_map[i].read8 = m68k_lockup_r_8; m68k_memory_map[i].read16 = m68k_lockup_r_16; m68k_memory_map[i].write8 = m68k_lockup_w_8; m68k_memory_map[i].write16 = m68k_lockup_w_16; zbank_memory_map[i].read = zbank_lockup_r; zbank_memory_map[i].write = zbank_lockup_w; } /* Z80 bus (bank access) */ zbank_memory_map[0xa0].read = zbank_lockup_r; zbank_memory_map[0xa0].write = zbank_lockup_w; /* I/O & Control registers */ m68k_memory_map[0xa1].read8 = ctrl_io_read_byte; m68k_memory_map[0xa1].read16 = ctrl_io_read_word; m68k_memory_map[0xa1].write8 = ctrl_io_write_byte; m68k_memory_map[0xa1].write16 = ctrl_io_write_word; zbank_memory_map[0xa1].read = zbank_read_ctrl_io; zbank_memory_map[0xa1].write = zbank_write_ctrl_io; /* VDP (initially locked on models with TMSS) */ if (!(config.tmss & 1)) { for (i=0xc0; i<0xe0; i+=8) { m68k_memory_map[i].read8 = vdp_read_byte; m68k_memory_map[i].read16 = vdp_read_word; m68k_memory_map[i].write8 = vdp_write_byte; m68k_memory_map[i].write16 = vdp_write_word; zbank_memory_map[i].read = zbank_read_vdp; zbank_memory_map[i].write = zbank_write_vdp; } } /* SEGA PICO */ if (system_hw == SYSTEM_PICO) { m68k_memory_map[0x80].read8 = pico_read_byte; m68k_memory_map[0x80].read16 = pico_read_word; m68k_memory_map[0x80].write8 = m68k_unused_8_w; m68k_memory_map[0x80].write16 = m68k_unused_16_w; /* there is no I/O area (Notaz) */ m68k_memory_map[0xa1].read8 = m68k_read_bus_8; m68k_memory_map[0xa1].read16 = m68k_read_bus_16; m68k_memory_map[0xa1].write8 = m68k_unused_8_w; m68k_memory_map[0xa1].write16 = m68k_unused_16_w; /* page registers */ pico_current = 0x00; pico_page[0] = 0x00; pico_page[1] = 0x01; pico_page[2] = 0x03; pico_page[3] = 0x07; pico_page[4] = 0x0F; pico_page[5] = 0x1F; pico_page[6] = 0x3F; } } void gen_hardreset(void) { /* Clear RAM */ memset (work_ram, 0x00, sizeof (work_ram)); memset (zram, 0x00, sizeof (zram)); /* TMSS + OS ROM support */ memset(tmss, 0x00, sizeof(tmss)); if (config.tmss == 3) { m68k_memory_map[0].base = bios_rom; } /* 68k & Z80 could restart anywhere in VDP frame (Bonkers, Eternal Champions, X-Men 2) */ mcycles_68k = mcycles_z80 = (uint32)((MCYCLES_PER_LINE * lines_per_frame) * ((double)rand() / (double)RAND_MAX)); /* Z80 bus is released & Z80 is stopped */ m68k_memory_map[0xa0].read8 = m68k_read_bus_8; m68k_memory_map[0xa0].read16 = m68k_read_bus_16; m68k_memory_map[0xa0].write8 = m68k_unused_8_w; m68k_memory_map[0xa0].write16 = m68k_unused_16_w; zstate = 0; /* Assume default bank is $000000-$007FFF */ zbank = 0; /* Reset 68k, Z80 & YM2612 */ m68k_pulse_reset(); z80_reset(); YM2612ResetChip(); } void gen_softreset(int state) { if (state) { /* Halt 68k, Z80 & YM2612 */ m68k_pulse_halt(); zstate = 0; YM2612ResetChip(); } else { /* Reset PRO Action Replay (if switch is in TRAINER position) */ if (areplay_get_status() == AR_SWITCH_TRAINER) { areplay_reset(0); } /* 68k & Z80 could restart anywhere in VDP frame (Bonkers, Eternal Champions, X-Men 2) */ mcycles_68k = mcycles_z80 = (uint32)((MCYCLES_PER_LINE * lines_per_frame) * ((double)rand() / (double)RAND_MAX)); /* Reset 68k, Z80 & YM2612 */ m68k_pulse_reset(); z80_reset(); YM2612ResetChip(); } } void gen_shutdown(void) { z80_exit(); } /*----------------------------------------------------------------------- OS ROM / TMSS register control functions -----------------------------------------------------------------------*/ void gen_tmss_w(unsigned int offset, unsigned int data) { /* write TMSS regisiter */ WRITE_WORD(tmss, offset, data); /* VDP requires "SEGA" value to be written in TMSSS register */ int i; if (strncmp((char *)tmss, "SEGA", 4) == 0) { for (i=0xc0; i<0xe0; i+=8) { m68k_memory_map[i].read8 = vdp_read_byte; m68k_memory_map[i].read16 = vdp_read_word; m68k_memory_map[i].write8 = vdp_write_byte; m68k_memory_map[i].write16 = vdp_write_word; zbank_memory_map[i].read = zbank_read_vdp; zbank_memory_map[i].write = zbank_write_vdp; } } else { for (i=0xc0; i<0xe0; i+=8) { m68k_memory_map[i].read8 = m68k_lockup_r_8; m68k_memory_map[i].read16 = m68k_lockup_r_16; m68k_memory_map[i].write8 = m68k_lockup_w_8; m68k_memory_map[i].write16 = m68k_lockup_w_16; zbank_memory_map[i].read = zbank_lockup_r; zbank_memory_map[i].write = zbank_lockup_w; } } } void gen_bankswitch_w(unsigned int data) { /* BIOS has not been loaded yet */ if (!(config.tmss & 2)) { config.tmss |= 2; memcpy(bios_rom, cart.rom, 0x800); memset(cart.rom, 0xff, cart.romsize); } if (data & 1) { /* enable CART */ m68k_memory_map[0].base = cart.base; } else { /* enable internal BIOS ROM */ m68k_memory_map[0].base = bios_rom; } } unsigned int gen_bankswitch_r(void) { return (m68k_memory_map[0].base == cart.base); } /*----------------------------------------------------------------------- Z80 Bus controller chip functions -----------------------------------------------------------------------*/ void gen_zbusreq_w(unsigned int data, unsigned int cycles) { if (data) /* !ZBUSREQ asserted */ { /* check if Z80 is going to be stopped */ if (zstate == 1) { /* resynchronize with 68k */ z80_run(cycles); /* enable 68k access to Z80 bus */ _m68k_memory_map *base = &m68k_memory_map[0xa0]; base->read8 = z80_read_byte; base->read16 = z80_read_word; base->write8 = z80_write_byte; base->write16 = z80_write_word; } /* update Z80 bus status */ zstate |= 2; } else /* !ZBUSREQ released */ { /* check if Z80 is going to be restarted */ if (zstate == 3) { /* resynchronize with 68k */ mcycles_z80 = cycles; /* disable 68k access to Z80 bus */ _m68k_memory_map *base = &m68k_memory_map[0xa0]; base->read8 = m68k_read_bus_8; base->read16 = m68k_read_bus_16; base->write8 = m68k_unused_8_w; base->write16 = m68k_unused_16_w; } /* update Z80 bus status */ zstate &= 1; } } void gen_zreset_w(unsigned int data, unsigned int cycles) { if (data) /* !ZRESET released */ { /* check if Z80 is going to be restarted */ if (zstate == 0) { /* resynchronize with 68k */ mcycles_z80 = cycles; /* reset Z80 & YM2612 */ z80_reset(); fm_reset(cycles); } /* check if 68k access to Z80 bus is granted */ else if (zstate == 2) { /* enable 68k access to Z80 bus */ _m68k_memory_map *base = &m68k_memory_map[0xa0]; base->read8 = z80_read_byte; base->read16 = z80_read_word; base->write8 = z80_write_byte; base->write16 = z80_write_word; /* reset Z80 & YM2612 */ z80_reset(); fm_reset(cycles); } /* update Z80 bus status */ zstate |= 1; } else /* !ZRESET asserted */ { /* check if Z80 is going to be stopped */ if (zstate == 1) { /* resynchronize with 68k */ z80_run(cycles); } /* check if 68k had access to Z80 bus */ else if (zstate == 3) { /* disable 68k access to Z80 bus */ _m68k_memory_map *base = &m68k_memory_map[0xa0]; base->read8 = m68k_read_bus_8; base->read16 = m68k_read_bus_16; base->write8 = m68k_unused_8_w; base->write16 = m68k_unused_16_w; } /* stop YM2612 */ fm_reset(cycles); /* update Z80 bus status */ zstate &= 2; } } void gen_zbank_w (unsigned int data) { zbank = ((zbank >> 1) | ((data & 1) << 23)) & 0xFF8000; } int z80_irq_callback (int param) { return 0xFF; }