Mercurial > repos > blastem

view xband.c @ 1272:be509813b2f2

Find changesets by keywords (author, files, the commit message), revision number or hash, or revset expression.
Fill in the rest of the framebuffer holes created by horizontal border. Work remains for things to be seemless when display gets turned on and off mid frame
author Michael Pavone <pavone@retrodev.com>
date Tue, 07 Mar 2017 20:17:12 -0800
parents 6370b80491c7
children 780fbe0b97be
line wrap: on
line source

#include <stdlib.h>
#include <stddef.h>
#include <string.h>
#include "romdb.h"
#include "genesis.h"
#include "tern.h"
#include "xband.h"
#include "util.h"

#define BIT_ROM_HI 4

enum {
	PATCH0_LOW,
	PATCH0_MID,
	PATCH0_HI,
	PATCH1_LOW=4,
	PATCH1_MID,
	PATCH1_HI,
	PATCH2_LOW=8,
	PATCH2_MID,
	PATCH2_HI,
	PATCH3_LOW=12,
	PATCH3_MID,
	PATCH3_HI,
	PATCH4_LOW=16,
	PATCH4_MID,
	PATCH4_HI,
	PATCH5_LOW=20,
	PATCH5_MID,
	PATCH5_HI,
	PATCH6_LOW=24,
	PATCH6_MID,
	PATCH6_HI,
	PATCH7_LOW=28,
	PATCH7_MID,
	PATCH7_HI,
	PATCH8_LOW=32,
	PATCH8_MID,
	PATCH8_HI,
	PATCH9_LOW=36,
	PATCH9_MID,
	PATCH9_HI,
	PATCH10_LOW=40,
	PATCH10_MID,
	PATCH10_HI,
	RANGE0_START_LOW=44,
	RANGE0_START_MID,
	RANGE0_START_HI,
	RANGE1_START=48,
	RANGE1_START_MID,
	RANGE1_START_HI,
	MAGIC_LOW=56,
	MAGIC_MID,
	MAGIC_HI,
	RANGE0_END_LOW=64,
	RANGE0_END_MID,
	RANGE0_END_HI,
	RANGE1_END_LOW=68,
	RANGE1_END_MID,
	RANGE1_END_HI,
	RANGE0_DEST_LOW=80,
	RANGE0_DEST_HI,
	RANGE0_MASK,
	RANGE1_DEST_LOW=84,
	RANGE1_DEST_HI,
	RANGE1_MASK,
	
	MORE_MYSTERY=219,
	UNKNOWN_REG=221,
	UNKNOWN_REG2,
	UNKNOWN_REG3,
	
};

//#define DO_DEBUG_PRINT
#ifdef DO_DEBUG_PRINT
#define dprintf printf
#define dputs puts
#else
#define dprintf
#define dputs
#endif

uint8_t xband_detect(uint8_t *rom, uint32_t rom_size)
{
	//Internal ROM is 512KB, accept larger ones for overdumps and custom firmware
	if (rom_size < (512*1024)) {
		return 0;
	}
	
	//ROM has no standard header, but does have a jump at $100
	if (rom[0x100] != 0x4E || rom[0x101] != 0xF9) {
		return 0;
	}
	
	//product ID is all NULL
	for (int i = GAME_ID_OFF; i <= (GAME_ID_OFF + GAME_ID_LEN); i++)
	{
		if (rom[i]) {
			return 0;
		}
	}
	return 1;
}

static xband *get_xband(genesis_context *gen)
{
	if (!gen->extra) {
		gen->extra = gen->m68k->options->gen.memmap[0].buffer;
		gen->m68k->mem_pointers[2] = (uint16_t *)gen->save_storage;
	}
	return gen->extra;
}

static void update_control(genesis_context *gen, uint8_t value)
{
	xband *x = gen->extra;
	if ((x->control ^ value) & BIT_ROM_HI) {
		if (value & BIT_ROM_HI) {
			gen->m68k->mem_pointers[0] = (uint16_t *)gen->save_storage;
			gen->m68k->mem_pointers[1] = NULL;
			gen->m68k->mem_pointers[2] = gen->cart;
			gen->m68k->mem_pointers[3] = x->cart_space - 0x100000;
		} else {
			gen->m68k->mem_pointers[0] = x->cart_space;
			gen->m68k->mem_pointers[1] = x->cart_space;
			gen->m68k->mem_pointers[2] = (uint16_t *)gen->save_storage;
			gen->m68k->mem_pointers[3] = NULL;
		}
		m68k_invalidate_code_range(gen->m68k, 0, 0x3BC000);
	}
	x->control = value;
}

static void *xband_write_b(uint32_t address, void *context, uint8_t value)
{
	m68k_context *m68k = context;
	genesis_context *gen = m68k->system;
	xband *x = get_xband(gen);
	if (address == 0x181) {
		x->kill = value;
		dprintf("Write to \"soft\" kill register %X\n", value);
	} else if (address == 0x183) {
		update_control(gen, value);
		dprintf("Write to \"soft\" control register %X\n", value);
	} else if ((x->control & BIT_ROM_HI && address < 0x200000) || (address >= 0x200000 && !(x->control & BIT_ROM_HI))) {
		gen->save_storage[(address & 0xFFFF) ^ 1] = value;
		m68k_handle_code_write(address, m68k);
		//TODO: handle code at mirror addresses
	} else {
		printf("Unhandled write to cartridge area %X: %X\n", address, value);
	}
	return context;
}

static void *xband_write_hi_b(uint32_t address, void *context, uint8_t value)
{
	return xband_write_b(address | 0x200000, context, value);
}

static void *xband_write_w(uint32_t address, void *context, uint16_t value)
{
	m68k_context *m68k = context;
	genesis_context *gen = m68k->system;
	xband *x = get_xband(gen);
	if (address == 0x180 || address == 0x182) {
		return xband_write_b(address | 1, context, value);
	} else if ((x->control & BIT_ROM_HI && address < 0x200000) || (address >= 0x200000 && !(x->control & BIT_ROM_HI))) {
		gen->save_storage[address & 0xFFFE] = value;
		gen->save_storage[(address & 0xFFFE) | 1] = value >> 8;
		m68k_handle_code_write(address, m68k);
		//TODO: handle code at mirror addresses
		return context;
	}
	printf("Unhandled write to %X: %X\n", address, value);
	return context;
}

static void *xband_write_hi_w(uint32_t address, void *context, uint16_t value)
{
	return xband_write_w(address | 0x200000, context, value);
}

static uint16_t xband_read_w(uint32_t address, void *context)
{
	m68k_context *m68k = context;
	genesis_context *gen = m68k->system;
	xband *x = get_xband(gen);
	//TODO: actually do something intelligent here
	return x->cart_space[address >> 1];
}

static uint16_t xband_read_hi_w(uint32_t address, void *context)
{
	return xband_read_w(address | 0x200000, context);
}

static uint8_t xband_read_b(uint32_t address, void *context)
{
	uint16_t val = xband_read_w(address, context);
	return address & 1 ? val : val >> 8;
}

static uint8_t xband_read_hi_b(uint32_t address, void *context)
{
	return xband_read_b(address | 0x200000, context);
}

static void *xband_reg_write_b(uint32_t address, void *context, uint8_t value)
{
	m68k_context *m68k = context;
	genesis_context *gen = m68k->system;
	if (!(address & 1)) {
		printf("Ignoring write to even address %X: %X\n", address, value);
		return context;
	}
	xband *x = get_xband(gen);
	if (address < 0x3BFE00) {
		uint32_t offset = (address - 0x3BC001) / 2;
		if (offset < XBAND_REGS) {
			switch (offset)
			{
			case MORE_MYSTERY:
			case UNKNOWN_REG:
				dprintf("Write to mysterious reg: %X: %X\n", address, value);
				value = value & 0x7F;
				break;
			case UNKNOWN_REG3:
				dprintf("Write to mysterious reg: %X: %X\n", address, value);
				value = value & 0xFE;
				break;
			}
			x->regs[offset] = value;
			dprintf("Write to register %X(%d): %X\n", address, offset, value);
		} else {
			printf("Unhandled register write %X: %X\n", address, value);
		}
	} else {
		if (address == 0x3BFE01) {
			x->kill = value;
			dprintf("Write to kill register %X\n", value);
		} else if (address == 0x3BFE03) {
			update_control(gen, value);
			dprintf("Write to control register %X\n", value);
		} else {
			printf("Unhandled register write %X: %X\n", address, value);
		}
	}
	return context;
}

static void *xband_reg_write_w(uint32_t address, void *context, uint16_t value)
{
	return xband_reg_write_b(address | 1, context, value);
}

static uint8_t xband_reg_read_b(uint32_t address, void *context)
{
	m68k_context *m68k = context;
	genesis_context *gen = m68k->system;
	if (!(address & 1)) {
		printf("Read from even address %X\n", address);
		return gen->header.get_open_bus_value(&gen->header) >> 8;
	}
	xband *x = get_xband(gen);
	if (address < 0x3BFE00) {
		uint32_t offset = (address - 0x3BC001) / 2;
		if (offset < XBAND_REGS) {
			dprintf("Regsister read: %X\n", address);
			return x->regs[offset];
		} else {
			printf("Unhandled register read from address %X\n", address);
			return 0x5D;
		}
	} else {
		if (address == 0x3BFE01) {
			return x->kill;
		} else if (address == 0x3BFE03) {
			return x->control;
		} else {
			printf("Unhandled register read from address %X\n", address);
			return 0x5D;
		}
	}
}

static uint16_t xband_reg_read_w(uint32_t address, void *context)
{
	m68k_context *m68k = context;
	genesis_context *gen = m68k->system;
	uint16_t value = xband_reg_read_b(address | 1, context);
	value |= gen->header.get_open_bus_value(&gen->header) & 0xFF00;
	return value;
}

rom_info xband_configure_rom(tern_node *rom_db, void *rom, uint32_t rom_size, void *lock_on, uint32_t lock_on_size, memmap_chunk const *base_map, uint32_t base_chunks)
{
	rom_info info;
	if (lock_on && lock_on_size) {
		rom_info lock_on_info = configure_rom(rom_db, lock_on, lock_on_size, NULL, 0, base_map, base_chunks);
		info.name = alloc_concat("XBAND - ", lock_on_info.name);
		info.regions = lock_on_info.regions;
		//TODO: Move this to a shared function in romdbc.h
		free(lock_on_info.name);
		if (lock_on_info.save_type != SAVE_NONE) {
			free(lock_on_info.save_buffer);
			if (lock_on_info.save_type == SAVE_I2C) {
				free(lock_on_info.eeprom_map);
			}
		}
		free(lock_on_info.map);
		free(lock_on_info.port1_override);
		free(lock_on_info.port2_override);
		free(lock_on_info.ext_override);
		free(lock_on_info.mouse_mode);
	} else {
		info.name = strdup("XBAND");
		info.regions = REGION_J|REGION_U|REGION_E;
	}
	info.save_size = 64*1024;
	info.save_buffer = malloc(info.save_size);
	info.save_mask = info.save_size-1;
	info.save_type = RAM_FLAG_BOTH;
	info.port1_override = info.ext_override = info.mouse_mode = NULL;
	info.port2_override = strdup("xband keyboard");
	info.eeprom_map = NULL;
	info.num_eeprom = 0;
	xband *x = calloc(sizeof(xband), 1);
	rom_size = nearest_pow2(rom_size);
	for (int i = 0; (i + rom_size) <= sizeof(x->cart_space) / 2; i += rom_size)
	{
		memcpy(x->cart_space + i/2, rom, rom_size);
	}
	if (lock_on && lock_on_size >= 0x200) {
		memcpy(x->cart_space + 0x80, ((uint16_t *)lock_on) + 0x80, 0x100);
	}
	//observed power on values
	memset(x->regs, 0, sizeof(x->regs));
	x->regs[0x7C] = 0;
	x->regs[0x7D] = 0x80;
	x->regs[0xB4] = 0x7F;
	x->regs[UNKNOWN_REG2] = 8;
	
	byteswap_rom(0x400000, x->cart_space);
	
	info.map_chunks = base_chunks + 5;
	info.map = calloc(sizeof(memmap_chunk), info.map_chunks);
	info.map[0].mask = 0xFFFFFF;
	info.map[0].aux_mask = 0xFFFFFF;
	info.map[0].flags = MMAP_READ|MMAP_CODE|MMAP_PTR_IDX|MMAP_FUNC_NULL|MMAP_AUX_BUFF;
	info.map[0].start = 0;
	info.map[0].end = 0x10000;
	info.map[0].ptr_index = 0;
	info.map[0].buffer = x->cart_space;
	info.map[0].write_16 = xband_write_w;
	info.map[0].write_8 = xband_write_b;
	info.map[0].read_16 = xband_read_w;
	info.map[0].read_8 = xband_read_b;
	info.map[1].mask = 0xFFFFFF;
	info.map[1].aux_mask = 0xFFFFFF;
	info.map[1].flags = MMAP_READ|MMAP_CODE|MMAP_PTR_IDX|MMAP_FUNC_NULL|MMAP_AUX_BUFF;
	info.map[1].start = 0x10000;
	info.map[1].end = 0x200000;
	info.map[1].ptr_index = 1;
	info.map[1].buffer = x->cart_space;
	info.map[1].write_16 = xband_write_w;
	info.map[1].write_8 = xband_write_b;
	info.map[1].read_16 = xband_read_w;
	info.map[1].read_8 = xband_read_b;
	info.map[2].mask = 0xFFFF;
	info.map[2].aux_mask = 0xFFFF;
	info.map[2].flags = MMAP_READ|MMAP_CODE|MMAP_PTR_IDX|MMAP_FUNC_NULL;
	info.map[2].start = 0x200000;
	info.map[2].end = 0x210000;
	info.map[2].ptr_index = 2;
	info.map[2].buffer = NULL;
	info.map[2].write_16 = xband_write_hi_w;
	info.map[2].write_8 = xband_write_hi_b;
	info.map[2].read_16 = xband_read_hi_w;
	info.map[2].read_8 = xband_read_hi_b;
	info.map[3].mask = 0xFFFFFF;
	info.map[3].aux_mask = 0xFFFFFF;
	info.map[3].flags = MMAP_READ|MMAP_CODE|MMAP_PTR_IDX|MMAP_FUNC_NULL;
	info.map[3].start = 0x210000;
	info.map[3].end = 0x3BC000;
	info.map[3].ptr_index = 3;
	info.map[3].buffer = NULL;
	info.map[3].write_16 = xband_write_w;
	info.map[3].write_8 = xband_write_b;
	info.map[3].read_16 = xband_read_w;
	info.map[3].read_8 = xband_read_b;
	info.map[4].mask = 0xFFFFFF;
	info.map[4].flags = MMAP_READ|MMAP_CODE|MMAP_PTR_IDX|MMAP_FUNC_NULL;
	info.map[4].start = 0x3BC000;
	info.map[4].end = 0x3C0000;
	info.map[4].ptr_index = 4;
	info.map[4].write_16 = xband_reg_write_w;
	info.map[4].write_8 = xband_reg_write_b;
	info.map[4].read_16 = xband_reg_read_w;
	info.map[4].read_8 = xband_reg_read_b;
	memcpy(info.map + 5, base_map, base_chunks * sizeof(memmap_chunk));
	
	return info;
}