mirror of
https://github.com/libretro/snes9x.git
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224 lines
5.9 KiB
C++
224 lines
5.9 KiB
C++
/*****
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* S-RTC emulation code
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* Copyright (c) byuu
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*****/
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#define _SRTCEMU_CPP_
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const unsigned SRTC::months[12] = { 31, 28, 31, 30, 31, 30, 31, 31, 30, 31, 30, 31 };
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void SRTC::power() {
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reset();
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}
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void SRTC::reset() {
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rtc_mode = RTCM_Read;
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rtc_index = -1;
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update_time();
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}
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void SRTC::update_time() {
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time_t rtc_time
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= (memory_cartrtc_read(16) << 0)
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| (memory_cartrtc_read(17) << 8)
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| (memory_cartrtc_read(18) << 16)
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| (memory_cartrtc_read(19) << 24);
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time_t current_time = time(0);
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//sizeof(time_t) is platform-dependent; though memory::cartrtc needs to be platform-agnostic.
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//yet platforms with 32-bit signed time_t will overflow every ~68 years. handle this by
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//accounting for overflow at the cost of 1-bit precision (to catch underflow). this will allow
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//memory::cartrtc timestamp to remain valid for up to ~34 years from the last update, even if
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//time_t overflows. calculation should be valid regardless of number representation, time_t size,
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//or whether time_t is signed or unsigned.
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time_t diff
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= (current_time >= rtc_time)
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? (current_time - rtc_time)
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: (std::numeric_limits<time_t>::max() - rtc_time + current_time + 1); //compensate for overflow
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if(diff > std::numeric_limits<time_t>::max() / 2) diff = 0; //compensate for underflow
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if(diff > 0) {
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unsigned second = memory_cartrtc_read( 0) + memory_cartrtc_read( 1) * 10;
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unsigned minute = memory_cartrtc_read( 2) + memory_cartrtc_read( 3) * 10;
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unsigned hour = memory_cartrtc_read( 4) + memory_cartrtc_read( 5) * 10;
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unsigned day = memory_cartrtc_read( 6) + memory_cartrtc_read( 7) * 10;
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unsigned month = memory_cartrtc_read( 8);
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unsigned year = memory_cartrtc_read( 9) + memory_cartrtc_read(10) * 10 + memory_cartrtc_read(11) * 100;
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unsigned weekday = memory_cartrtc_read(12);
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day--;
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month--;
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year += 1000;
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second += diff;
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while(second >= 60) {
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second -= 60;
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minute++;
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if(minute < 60) continue;
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minute = 0;
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hour++;
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if(hour < 24) continue;
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hour = 0;
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day++;
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weekday = (weekday + 1) % 7;
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unsigned days = months[month % 12];
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if(days == 28) {
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bool leapyear = false;
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if((year % 4) == 0) {
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leapyear = true;
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if((year % 100) == 0 && (year % 400) != 0) leapyear = false;
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}
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if(leapyear) days++;
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}
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if(day < days) continue;
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day = 0;
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month++;
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if(month < 12) continue;
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month = 0;
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year++;
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}
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day++;
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month++;
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year -= 1000;
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memory_cartrtc_write( 0, second % 10);
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memory_cartrtc_write( 1, second / 10);
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memory_cartrtc_write( 2, minute % 10);
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memory_cartrtc_write( 3, minute / 10);
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memory_cartrtc_write( 4, hour % 10);
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memory_cartrtc_write( 5, hour / 10);
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memory_cartrtc_write( 6, day % 10);
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memory_cartrtc_write( 7, day / 10);
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memory_cartrtc_write( 8, month);
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memory_cartrtc_write( 9, year % 10);
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memory_cartrtc_write(10, (year / 10) % 10);
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memory_cartrtc_write(11, year / 100);
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memory_cartrtc_write(12, weekday % 7);
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}
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memory_cartrtc_write(16, current_time >> 0);
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memory_cartrtc_write(17, current_time >> 8);
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memory_cartrtc_write(18, current_time >> 16);
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memory_cartrtc_write(19, current_time >> 24);
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}
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//returns day of week for specified date
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//eg 0 = Sunday, 1 = Monday, ... 6 = Saturday
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//usage: weekday(2008, 1, 1) returns weekday of January 1st, 2008
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unsigned SRTC::weekday(unsigned year, unsigned month, unsigned day) {
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unsigned y = 1900, m = 1; //epoch is 1900-01-01
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unsigned sum = 0; //number of days passed since epoch
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year = max(1900, year);
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month = max(1, min(12, month));
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day = max(1, min(31, day));
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while(y < year) {
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bool leapyear = false;
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if((y % 4) == 0) {
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leapyear = true;
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if((y % 100) == 0 && (y % 400) != 0) leapyear = false;
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}
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sum += leapyear ? 366 : 365;
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y++;
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}
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while(m < month) {
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unsigned days = months[m - 1];
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if(days == 28) {
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bool leapyear = false;
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if((y % 4) == 0) {
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leapyear = true;
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if((y % 100) == 0 && (y % 400) != 0) leapyear = false;
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}
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if(leapyear) days++;
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}
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sum += days;
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m++;
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}
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sum += day - 1;
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return (sum + 1) % 7; //1900-01-01 was a Monday
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}
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uint8 SRTC::mmio_read(unsigned addr) {
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addr &= 0xffff;
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if(addr == 0x2800) {
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if(rtc_mode != RTCM_Read) return 0x00;
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if(rtc_index < 0) {
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update_time();
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rtc_index++;
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return 0x0f;
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} else if(rtc_index > 12) {
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rtc_index = -1;
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return 0x0f;
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} else {
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return memory_cartrtc_read(rtc_index++);
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}
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}
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return cpu_regs_mdr;
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}
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void SRTC::mmio_write(unsigned addr, uint8 data) {
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addr &= 0xffff;
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if(addr == 0x2801) {
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data &= 0x0f; //only the low four bits are used
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if(data == 0x0d) {
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rtc_mode = RTCM_Read;
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rtc_index = -1;
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return;
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}
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if(data == 0x0e) {
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rtc_mode = RTCM_Command;
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return;
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}
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if(data == 0x0f) return; //unknown behavior
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if(rtc_mode == RTCM_Write) {
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if(rtc_index >= 0 && rtc_index < 12) {
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memory_cartrtc_write(rtc_index++, data);
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if(rtc_index == 12) {
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//day of week is automatically calculated and written
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unsigned day = memory_cartrtc_read( 6) + memory_cartrtc_read( 7) * 10;
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unsigned month = memory_cartrtc_read( 8);
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unsigned year = memory_cartrtc_read( 9) + memory_cartrtc_read(10) * 10 + memory_cartrtc_read(11) * 100;
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year += 1000;
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memory_cartrtc_write(rtc_index++, weekday(year, month, day));
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}
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}
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} else if(rtc_mode == RTCM_Command) {
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if(data == 0) {
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rtc_mode = RTCM_Write;
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rtc_index = 0;
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} else if(data == 4) {
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rtc_mode = RTCM_Ready;
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rtc_index = -1;
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for(unsigned i = 0; i < 13; i++) memory_cartrtc_write(i, 0);
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} else {
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//unknown behavior
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rtc_mode = RTCM_Ready;
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}
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}
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}
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}
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SRTC::SRTC() {
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}
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