/*********************************************************************************************************** Super NES/Famicom (HiROM) cartridge emulation (for SNES/SFC) Copyright MESS Team. Visit http://mamedev.org for licensing and usage restrictions. ***********************************************************************************************************/ #include "emu.h" #include "rom21.h" //------------------------------------------------- // sns_rom_device - constructor //------------------------------------------------- const device_type SNS_HIROM = &device_creator; const device_type SNS_HIROM_SRTC = &device_creator; sns_rom21_device::sns_rom21_device(const machine_config &mconfig, device_type type, const char *name, const char *tag, device_t *owner, UINT32 clock, const char *shortname, const char *source) : device_t(mconfig, type, name, tag, owner, clock, shortname, source), device_sns_cart_interface( mconfig, *this ) { } sns_rom21_device::sns_rom21_device(const machine_config &mconfig, const char *tag, device_t *owner, UINT32 clock) : device_t(mconfig, SNS_HIROM, "SNES Cart (HiROM)", tag, owner, clock, "sns_rom21", __FILE__), device_sns_cart_interface( mconfig, *this ) { } sns_rom21_srtc_device::sns_rom21_srtc_device(const machine_config &mconfig, const char *tag, device_t *owner, UINT32 clock) : sns_rom21_device(mconfig, SNS_HIROM_SRTC, "SNES Cart (HiROM) + S-RTC", tag, owner, clock, "sns_rom21_srtc", __FILE__) { } void sns_rom21_device::device_start() { } void sns_rom21_device::device_reset() { } void sns_rom21_srtc_device::device_start() { save_item(NAME(m_mode)); save_item(NAME(m_index)); // save_item(NAME(m_rtc_ram)); } void sns_rom21_srtc_device::device_reset() { m_mode = RTCM_Read; m_index = -1; // memset(m_rtc_ram, 0, sizeof(m_rtc_ram)); // at this stage, rtc_ram is not yet allocated. this will be fixed when converting RTC to be a separate device. // update_time(); } /*------------------------------------------------- mapper specific handlers -------------------------------------------------*/ // low and hi reads are not the same! (different ROM banks are accessed) READ8_MEMBER(sns_rom21_device::read_l) { // here ROM banks from 128 to 255, mirrored twice int bank = (offset & 0x3fffff) / 0x8000; return m_rom[rom_bank_map[bank + 0x80] * 0x8000 + (offset & 0x7fff)]; } READ8_MEMBER(sns_rom21_device::read_h) { // here ROM banks from 0 to 127, mirrored twice int bank = (offset & 0x3fffff) / 0x8000; return m_rom[rom_bank_map[bank] * 0x8000 + (offset & 0x7fff)]; } // Hi-ROM + S-RTC (used by Daikaijuu Monogatari II) // same as above but additional read/write handling for the RTC /*************************************************************************** Based on C++ implementation by Byuu in BSNES. Byuu's code is released under GNU General Public License version 2 as published by the Free Software Foundation. The implementation below is released under the MAME license for use in MAME, MESS and derivatives by permission of Byuu Copyright (for the implementation below) MESS Team. Visit http://mamedev.org for licensing and usage restrictions. ***************************************************************************/ static const UINT8 srtc_months[12] = { 31, 28, 31, 30, 31, 30, 31, 31, 30, 31, 30, 31 }; void sns_rom21_srtc_device::update_time() { system_time curtime, *systime = &curtime; machine().current_datetime(curtime); m_rtc_ram[0] = systime->local_time.second % 10; m_rtc_ram[1] = systime->local_time.second / 10; m_rtc_ram[2] = systime->local_time.minute % 10; m_rtc_ram[3] = systime->local_time.minute / 10; m_rtc_ram[4] = systime->local_time.hour % 10; m_rtc_ram[5] = systime->local_time.hour / 10; m_rtc_ram[6] = systime->local_time.mday % 10; m_rtc_ram[7] = systime->local_time.mday / 10; m_rtc_ram[8] = systime->local_time.month; m_rtc_ram[9] = (systime->local_time.year - 1000) % 10; m_rtc_ram[10] = ((systime->local_time.year - 1000) / 10) % 10; m_rtc_ram[11] = (systime->local_time.year - 1000) / 100; m_rtc_ram[12] = systime->local_time.weekday % 7; } // Returns day-of-week for specified date // e.g. 0 = Sunday, 1 = Monday, ... 6 = Saturday // Usage: weekday(2008, 1, 1) returns the weekday of January 1st, 2008 UINT8 sns_rom21_srtc_device::srtc_weekday( UINT32 year, UINT32 month, UINT32 day ) { UINT32 y = 1900, m = 1; // Epoch is 1900-01-01 UINT32 sum = 0; // Number of days passed since epoch year = MAX(1900, year); month = MAX(1, MIN(12, month)); day = MAX(1, MIN(31, day)); while (y < year) { UINT8 leapyear = 0; if ((y % 4) == 0) { leapyear = 1; if ((y % 100) == 0 && (y % 400) != 0) { leapyear = 0; } } sum += leapyear ? 366 : 365; y++; } while (m < month) { UINT32 days = srtc_months[m - 1]; if (days == 28) { UINT8 leapyear = 0; if ((y % 4) == 0) { leapyear = 1; if ((y % 100) == 0 && (y % 400) != 0) { leapyear = 0; } } days += leapyear ? 1 : 0; } sum += days; m++; } sum += day - 1; return (sum + 1) % 7; // 1900-01-01 was a Monday } // this gets called only for accesses at 0x2800, // because for 0x2801 open bus gets returned... READ8_MEMBER(sns_rom21_srtc_device::chip_read) { if (m_mode != RTCM_Read) return 0x00; if (m_index < 0) { update_time(); m_index++; return 0x0f; } else if (m_index > 12) { m_index = -1; return 0x0f; } else return m_rtc_ram[m_index++]; } // this gets called only for accesses at 0x2801 WRITE8_MEMBER(sns_rom21_srtc_device::chip_write) { data &= 0x0f; // Only the low four bits are used if (data == 0x0d) { m_mode = RTCM_Read; m_index = -1; return; } if (data == 0x0e) { m_mode = RTCM_Command; return; } if (data == 0x0f) return; // Unknown behaviour if (m_mode == RTCM_Write) { if (m_index >= 0 && m_index < 12) { m_rtc_ram[m_index++] = data; if (m_index == 12) { // Day of week is automatically calculated and written UINT32 day = m_rtc_ram[6] + m_rtc_ram[7] * 10; UINT32 month = m_rtc_ram[8]; UINT32 year = m_rtc_ram[9] + m_rtc_ram[10] * 10 + m_rtc_ram[11] * 100; year += 1000; m_rtc_ram[m_index++] = srtc_weekday(year, month, day); } } } else if (m_mode == RTCM_Command) { if (data == 0) { m_mode = RTCM_Write; m_index = 0; } else if (data == 4) { UINT8 i; m_mode = RTCM_Ready; m_index = -1; for(i = 0; i < 13; i++) m_rtc_ram[i] = 0; } else { // Unknown behaviour m_mode = RTCM_Ready; } } }