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bsx.cpp
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bsx.cpp
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/*****************************************************************************\
Snes9x - Portable Super Nintendo Entertainment System (TM) emulator.
This file is licensed under the Snes9x License.
For further information, consult the LICENSE file in the root directory.
\*****************************************************************************/
// Dreamer Nom wrote:
// Large thanks to John Weidman for all his initial research
// Thanks to Seph3 for his modem notes
#include "snes9x.h"
#include "memmap.h"
#include "display.h"
#include <math.h>
//#define BSX_DEBUG
#define BIOS_SIZE 0x100000
#define FLASH_SIZE 0x100000
#define PSRAM_SIZE 0x80000
#define Map Memory.Map
#define BlockIsRAM Memory.BlockIsRAM
#define BlockIsROM Memory.BlockIsROM
#define RAM Memory.RAM
#define SRAM Memory.SRAM
#define PSRAM Memory.BSRAM
#define BIOSROM Memory.BIOSROM
#define MAP_BSX Memory.MAP_BSX
#define MAP_CPU Memory.MAP_CPU
#define MAP_PPU Memory.MAP_PPU
#define MAP_NONE Memory.MAP_NONE
#define BSXPPUBASE 0x2180
struct SBSX_RTC
{
int year;
int month;
int dayweek;
int day;
int hours;
int minutes;
int seconds;
int ticks;
};
static struct SBSX_RTC BSX_RTC;
// flash card vendor information
static const uint8 flashcard[20] =
{
0x4D, 0x00, 0x50, 0x00, // vendor id
0x00, 0x00, // ?
0x1A, 0x00, // 2MB Flash (1MB = 0x2A)
0x00, 0x00, 0x00, 0x00, 0x00, 0x00,
0x00, 0x00, 0x00, 0x00, 0x00, 0x00
};
#if 0
static const uint8 init2192[32] = // FIXME
{
00, 00, 00, 00, 00, // unknown
01, 01, 00, 00, 00,
00, // seconds (?)
00, // minutes
00, // hours
10, 10, 10, 10, 10, // unknown
10, 10, 10, 10, 10, // dummy
00, 00, 00, 00, 00, 00, 00, 00, 00
};
#endif
static bool8 FlashMode;
static uint32 FlashSize;
static uint8 *MapROM, *FlashROM;
static void BSX_Map_SNES (void);
static void BSX_Map_LoROM (void);
static void BSX_Map_HiROM (void);
static void BSX_Map_MMC (void);
static void BSX_Map_FlashIO (void);
static void BSX_Map_SRAM (void);
static void BSX_Map_PSRAM (void);
static void BSX_Map_BIOS (void);
static void BSX_Map_RAM (void);
static void BSX_Map (void);
static bool8 BSX_LoadBIOS (void);
static void map_psram_mirror_sub (uint32);
static int is_bsx (unsigned char *);
static void BSX_Map_SNES (void)
{
// These maps will be partially overwritten
int c;
// Banks 00->3F and 80->BF
for (c = 0; c < 0x400; c = 16)
{
Map[c 0] = Map[c 0x800] = RAM;
Map[c 1] = Map[c 0x801] = RAM;
BlockIsRAM[c 0] = BlockIsRAM[c 0x800] = TRUE;
BlockIsRAM[c 1] = BlockIsRAM[c 0x801] = TRUE;
Map[c 2] = Map[c 0x802] = (uint8 *) MAP_PPU;
Map[c 3] = Map[c 0x803] = (uint8 *) MAP_PPU;
Map[c 4] = Map[c 0x804] = (uint8 *) MAP_CPU;
Map[c 5] = Map[c 0x805] = (uint8 *) MAP_CPU;
Map[c 6] = Map[c 0x806] = (uint8 *) MAP_NONE;
Map[c 7] = Map[c 0x807] = (uint8 *) MAP_NONE;
}
}
static void BSX_Map_LoROM (void)
{
// These maps will be partially overwritten
int i, c;
// Banks 00->3F and 80->BF
for (c = 0; c < 0x400; c = 16)
{
for (i = c 8; i < c 16; i )
{
Map[i] = Map[i 0x800] = &MapROM[(c << 11) % FlashSize] - 0x8000;
BlockIsRAM[i] = BlockIsRAM[i 0x800] = BSX.write_enable;
BlockIsROM[i] = BlockIsROM[i 0x800] = !BSX.write_enable;
}
}
// Banks 40->7F and C0->FF
for (c = 0; c < 0x400; c = 16)
{
for (i = c; i < c 8; i )
Map[i 0x400] = Map[i 0xC00] = &MapROM[(c << 11) % FlashSize];
for (i = c 8; i < c 16; i )
Map[i 0x400] = Map[i 0xC00] = &MapROM[(c << 11) % FlashSize] - 0x8000;
for (i = c; i < c 16; i )
{
BlockIsRAM[i 0x400] = BlockIsRAM[i 0xC00] = BSX.write_enable;
BlockIsROM[i 0x400] = BlockIsROM[i 0xC00] = !BSX.write_enable;
}
}
}
static void BSX_Map_HiROM (void)
{
// These maps will be partially overwritten
int i, c;
// Banks 00->3F and 80->BF
for (c = 0; c < 0x400; c = 16)
{
for (i = c 8; i < c 16; i )
{
Map[i] = Map[i 0x800] = &MapROM[(c << 12) % FlashSize];
BlockIsRAM[i] = BlockIsRAM[i 0x800] = BSX.write_enable;
BlockIsROM[i] = BlockIsROM[i 0x800] = !BSX.write_enable;
}
}
// Banks 40->7F and C0->FF
for (c = 0; c < 0x400; c = 16)
{
for (i = c; i < c 16; i )
{
Map[i 0x400] = Map[i 0xC00] = &MapROM[(c << 12) % FlashSize];
BlockIsRAM[i 0x400] = BlockIsRAM[i 0xC00] = BSX.write_enable;
BlockIsROM[i 0x400] = BlockIsROM[i 0xC00] = !BSX.write_enable;
}
}
}
static void BSX_Map_MMC (void)
{
int c;
// Banks 01->0E:5000-5FFF
for (c = 0x010; c < 0x0F0; c = 16)
{
Map[c 5] = (uint8 *) MAP_BSX;
BlockIsRAM[c 5] = BlockIsROM[c 5] = FALSE;
}
}
static void BSX_Map_FlashIO (void)
{
int i, c;
if (BSX.prevMMC[0x0C])
{
// Banks 00->3F and 80->BF
for (c = 0; c < 0x400; c = 16)
{
for (i = c 8; i < c 16; i )
{
Map[i] = Map[i 0x800] = (uint8 *)MAP_BSX;
BlockIsRAM[i] = BlockIsRAM[i 0x800] = TRUE;
BlockIsROM[i] = BlockIsROM[i 0x800] = FALSE;
}
}
// Banks 40->7F and C0->FF
for (c = 0; c < 0x400; c = 16)
{
for (i = c; i < c 16; i )
{
Map[i 0x400] = Map[i 0xC00] = (uint8 *)MAP_BSX;
BlockIsRAM[i 0x400] = BlockIsRAM[i 0xC00] = TRUE;
BlockIsROM[i 0x400] = BlockIsROM[i 0xC00] = FALSE;
}
}
}
}
static void BSX_Map_SRAM (void)
{
int c;
// Banks 10->17:5000-5FFF
for (c = 0x100; c < 0x180; c = 16)
{
Map[c 5] = (uint8 *) SRAM ((c & 0x70) << 8) - 0x5000;
BlockIsRAM[c 5] = TRUE;
BlockIsROM[c 5] = FALSE;
}
}
static void map_psram_mirror_sub (uint32 bank)
{
int i, c;
bank <<= 4;
if (BSX.prevMMC[0x02])
{
//HiROM
for (c = 0; c < 0x80; c = 16)
{
if ((bank & 0x7F0) >= 0x400)
{
for (i = c; i < c 16; i )
{
Map[i bank] = &PSRAM[(c << 12) % PSRAM_SIZE];
BlockIsRAM[i bank] = TRUE;
BlockIsROM[i bank] = FALSE;
}
}
else
{
for (i = c 8; i < c 16; i )
{
Map[i bank] = &PSRAM[(c << 12) % PSRAM_SIZE];
BlockIsRAM[i bank] = TRUE;
BlockIsROM[i bank] = FALSE;
}
}
}
}
else
{
//LoROM
for (c = 0; c < 0x100; c = 16)
{
if ((bank & 0x7F0) >= 0x400)
{
for (i = c; i < c 8; i )
{
Map[i bank] = &PSRAM[(c << 11) % PSRAM_SIZE];
BlockIsRAM[i bank] = TRUE;
BlockIsROM[i bank] = FALSE;
}
}
for (i = c 8; i < c 16; i )
{
Map[i bank] = &PSRAM[(c << 11) % PSRAM_SIZE] - 0x8000;
BlockIsRAM[i bank] = TRUE;
BlockIsROM[i bank] = FALSE;
}
}
}
}
static void BSX_Map_PSRAM(void)
{
int c;
if (!BSX.prevMMC[0x02])
{
//LoROM Mode
if (!BSX.prevMMC[0x05] && !BSX.prevMMC[0x06])
{
//Map PSRAM to 00-0F/80-8F
if (BSX.prevMMC[0x03])
map_psram_mirror_sub(0x00);
if (BSX.prevMMC[0x04])
map_psram_mirror_sub(0x80);
}
else if (BSX.prevMMC[0x05] && !BSX.prevMMC[0x06])
{
//Map PSRAM to 20-2F/A0-AF
if (BSX.prevMMC[0x03])
map_psram_mirror_sub(0x20);
if (BSX.prevMMC[0x04])
map_psram_mirror_sub(0xA0);
}
else if (!BSX.prevMMC[0x05] && BSX.prevMMC[0x06])
{
//Map PSRAM to 40-4F/C0-CF
if (BSX.prevMMC[0x03])
map_psram_mirror_sub(0x40);
if (BSX.prevMMC[0x04])
map_psram_mirror_sub(0xC0);
}
else
{
//Map PSRAM to 60-6F/E0-EF
if (BSX.prevMMC[0x03])
map_psram_mirror_sub(0x60);
if (BSX.prevMMC[0x04])
map_psram_mirror_sub(0xE0);
}
//Map PSRAM to 70-7D/F0-FF
if (BSX.prevMMC[0x03])
map_psram_mirror_sub(0x70);
if (BSX.prevMMC[0x04])
map_psram_mirror_sub(0xF0);
}
else
{
//HiROM Mode
if (!BSX.prevMMC[0x05] && !BSX.prevMMC[0x06])
{
//Map PSRAM to 00-07/40-47 / 80-87/C0-C7
if (BSX.prevMMC[0x03])
{
map_psram_mirror_sub(0x00);
map_psram_mirror_sub(0x40);
}
if (BSX.prevMMC[0x04])
{
map_psram_mirror_sub(0x80);
map_psram_mirror_sub(0xC0);
}
}
else if (BSX.prevMMC[0x05] && !BSX.prevMMC[0x06])
{
//Map PSRAM to 10-17/50-57 / 90-97-D0-D7
if (BSX.prevMMC[0x03])
{
map_psram_mirror_sub(0x10);
map_psram_mirror_sub(0x50);
}
if (BSX.prevMMC[0x04])
{
map_psram_mirror_sub(0x90);
map_psram_mirror_sub(0xD0);
}
}
else if (!BSX.prevMMC[0x05] && BSX.prevMMC[0x06])
{
//Map PSRAM to 20-27/60-67 / A0-A7/E0-E7
if (BSX.prevMMC[0x03])
{
map_psram_mirror_sub(0x20);
map_psram_mirror_sub(0x60);
}
if (BSX.prevMMC[0x04])
{
map_psram_mirror_sub(0xA0);
map_psram_mirror_sub(0xE0);
}
}
else
{
//Map PSRAM to 30-37/70-77 / B0-B7/F0-F7
if (BSX.prevMMC[0x03])
{
map_psram_mirror_sub(0x30);
map_psram_mirror_sub(0x70);
}
if (BSX.prevMMC[0x04])
{
map_psram_mirror_sub(0xB0);
map_psram_mirror_sub(0xF0);
}
}
if (BSX.prevMMC[0x03])
{
//Map PSRAM to 20->3F:6000-7FFF
for (c = 0x200; c < 0x400; c = 16)
{
Map[c 6] = &PSRAM[((c & 0x70) << 12) % PSRAM_SIZE];
Map[c 7] = &PSRAM[((c & 0x70) << 12) % PSRAM_SIZE];
BlockIsRAM[c 6] = TRUE;
BlockIsRAM[c 7] = TRUE;
BlockIsROM[c 6] = FALSE;
BlockIsROM[c 7] = FALSE;
}
}
if (BSX.prevMMC[0x04])
{
//Map PSRAM to A0->BF:6000-7FFF
for (c = 0xA00; c < 0xC00; c = 16)
{
Map[c 6] = &PSRAM[((c & 0x70) << 12) % PSRAM_SIZE];
Map[c 7] = &PSRAM[((c & 0x70) << 12) % PSRAM_SIZE];
BlockIsRAM[c 6] = TRUE;
BlockIsRAM[c 7] = TRUE;
BlockIsROM[c 6] = FALSE;
BlockIsROM[c 7] = FALSE;
}
}
}
}
static void BSX_Map_BIOS (void)
{
int i,c;
// Banks 00->1F:8000-FFFF
if (BSX.prevMMC[0x07])
{
for (c = 0; c < 0x200; c = 16)
{
for (i = c 8; i < c 16; i )
{
Map[i] = &BIOSROM[(c << 11) % BIOS_SIZE] - 0x8000;
BlockIsRAM[i] = FALSE;
BlockIsROM[i] = TRUE;
}
}
}
// Banks 80->9F:8000-FFFF
if (BSX.prevMMC[0x08])
{
for (c = 0; c < 0x200; c = 16)
{
for (i = c 8; i < c 16; i )
{
Map[i 0x800] = &BIOSROM[(c << 11) % BIOS_SIZE] - 0x8000;
BlockIsRAM[i 0x800] = FALSE;
BlockIsROM[i 0x800] = TRUE;
}
}
}
}
static void BSX_Map_RAM (void)
{
int c;
// Banks 7E->7F
for (c = 0; c < 16; c )
{
Map[c 0x7E0] = RAM;
Map[c 0x7F0] = RAM 0x10000;
BlockIsRAM[c 0x7E0] = TRUE;
BlockIsRAM[c 0x7F0] = TRUE;
BlockIsROM[c 0x7E0] = FALSE;
BlockIsROM[c 0x7F0] = FALSE;
}
}
static void BSX_Map (void)
{
#ifdef BSX_DEBUG
printf("BS: Remapping\n");
for (int i = 0; i < 32; i )
printf("BS: MMC X: %d\n", i, BSX.MMC[i]);
#endif
memcpy(BSX.prevMMC, BSX.MMC, sizeof(BSX.MMC));
MapROM = FlashROM;
FlashSize = FLASH_SIZE;
if (BSX.prevMMC[0x02])
BSX_Map_HiROM();
else
BSX_Map_LoROM();
BSX_Map_FlashIO();
BSX_Map_PSRAM();
BSX_Map_SNES();
BSX_Map_SRAM();
BSX_Map_RAM();
BSX_Map_BIOS();
BSX_Map_MMC();
// Monitor new register changes
BSX.dirty = FALSE;
BSX.dirty2 = FALSE;
Memory.map_WriteProtectROM();
}
static uint8 BSX_Get_Bypass_FlashIO (uint32 offset)
{
//For games other than BS-X
FlashROM = Memory.ROM Multi.cartOffsetB;
if (BSX.prevMMC[0x02])
return (FlashROM[offset & 0x0FFFFF]);
else
return (FlashROM[(offset & 0x1F0000) >> 1 | (offset & 0x7FFF)]);
}
static void BSX_Set_Bypass_FlashIO (uint32 offset, uint8 byte)
{
//For games other than BS-X
FlashROM = Memory.ROM Multi.cartOffsetB;
if (BSX.prevMMC[0x02])
FlashROM[offset & 0x0FFFFF] = FlashROM[offset & 0x0FFFFF] & byte;
else
FlashROM[(offset & 0x1F0000) >> 1 | (offset & 0x7FFF)] = FlashROM[(offset & 0x1F0000) >> 1 | (offset & 0x7FFF)] & byte;
}
uint8 S9xGetBSX (uint32 address)
{
uint8 bank = (address >> 16) & 0xFF;
uint16 offset = address & 0xFFFF;
uint8 t = 0;
// MMC
if ((bank >= 0x01 && bank <= 0x0E) && ((address & 0xF000) == 0x5000))
return (BSX.MMC[bank]);
// Flash Mapping
// default: read-through mode
t = BSX_Get_Bypass_FlashIO(address);
// note: may be more registers, purposes unknown
switch (offset)
{
case 0x0002:
case 0x8002:
if (BSX.flash_bsr)
t = 0xC0; // Page Status Register
break;
case 0x0004:
case 0x8004:
if (BSX.flash_gsr)
t = 0x82; // Global Status Register
break;
case 0x5555:
if (BSX.flash_enable)
t = 0x80; // ???
break;
case 0xFF00:
case 0xFF02:
case 0xFF04:
case 0xFF06:
case 0xFF08:
case 0xFF0A:
case 0xFF0C:
case 0xFF0E:
case 0xFF10:
case 0xFF12:
// return flash vendor information
if (BSX.read_enable)
t = flashcard[offset - 0xFF00];
break;
}
if (BSX.flash_csr)
{
t = 0x80; // Compatible Status Register
BSX.flash_csr = false;
}
return (t);
}
void S9xSetBSX (uint8 byte, uint32 address)
{
uint8 bank = (address >> 16) & 0xFF;
// MMC
if ((bank >= 0x01 && bank <= 0x0E) && ((address & 0xF000) == 0x5000))
{
//Avoid updating the memory map when it is not needed
if (bank == 0x0E && BSX.dirty)
{
BSX_Map();
BSX.dirty = FALSE;
}
else if (bank != 0x0E && BSX.MMC[bank] != byte)
{
BSX.dirty = TRUE;
}
BSX.MMC[bank] = byte;
}
// Flash IO
// Write to Flash
if (BSX.write_enable)
{
BSX_Set_Bypass_FlashIO(address, byte);
BSX.write_enable = false;
return;
}
// Flash Command Handling
//Memory Pack Type 1 & 3 & 4
BSX.flash_command <<= 8;
BSX.flash_command |= byte;
switch (BSX.flash_command & 0xFF)
{
case 0x00:
case 0xFF:
//Reset to normal
BSX.flash_enable = false;
BSX.flash_bsr = false;
BSX.flash_csr = false;
BSX.flash_gsr = false;
BSX.read_enable = false;
BSX.write_enable = false;
BSX.flash_cmd_done = true;
break;
case 0x10:
case 0x40:
//Write Byte
BSX.flash_enable = false;
BSX.flash_bsr = false;
BSX.flash_csr = true;
BSX.flash_gsr = false;
BSX.read_enable = false;
BSX.write_enable = true;
BSX.flash_cmd_done = true;
break;
case 0x50:
//Clear Status Register
BSX.flash_enable = false;
BSX.flash_bsr = false;
BSX.flash_csr = false;
BSX.flash_gsr = false;
BSX.flash_cmd_done = true;
break;
case 0x70:
//Read CSR
BSX.flash_enable = false;
BSX.flash_bsr = false;
BSX.flash_csr = true;
BSX.flash_gsr = false;
BSX.read_enable = false;
BSX.write_enable = false;
BSX.flash_cmd_done = true;
break;
case 0x71:
//Read Extended Status Registers (Page and Global)
BSX.flash_enable = false;
BSX.flash_bsr = true;
BSX.flash_csr = false;
BSX.flash_gsr = true;
BSX.read_enable = false;
BSX.write_enable = false;
BSX.flash_cmd_done = true;
break;
case 0x75:
//Show Page Buffer / Vendor Info
BSX.flash_csr = false;
BSX.read_enable = true;
BSX.flash_cmd_done = true;
break;
case 0xD0:
//DO COMMAND
switch (BSX.flash_command & 0xFFFF)
{
case 0x20D0: //Block Erase
uint32 x;
for (x = 0; x < 0x10000; x ) {
//BSX_Set_Bypass_FlashIO(((address & 0xFF0000) x), 0xFF);
if (BSX.MMC[0x02])
FlashROM[(address & 0x0F0000) x] = 0xFF;
else
FlashROM[((address & 0x1E0000) >> 1) x] = 0xFF;
}
break;
case 0xA7D0: //Chip Erase (ONLY IN TYPE 1 AND 4)
if ((flashcard[6] & 0xF0) == 0x10 || (flashcard[6] & 0xF0) == 0x40)
{
uint32 x;
for (x = 0; x < FLASH_SIZE; x ) {
//BSX_Set_Bypass_FlashIO(x, 0xFF);
FlashROM[x] = 0xFF;
}
}
break;
case 0x38D0: //Flashcart Reset
break;
}
break;
}
}
void S9xBSXSetStream1 (uint8 count)
{
if (BSX.sat_stream1.is_open())
BSX.sat_stream1.close(); //If Stream already opened for one file: Close it.
std::string path = S9xGetDirectory(SAT_DIR) SLASH_STR;
char name[PATH_MAX];
snprintf(name, PATH_MAX, "BSXX-%d.bin", (BSX.PPU[0x2188 - BSXPPUBASE] | (BSX.PPU[0x2189 - BSXPPUBASE] * 256)), count); //BSXHHHH-DDD.bin
path = name;
BSX.sat_stream1.clear();
BSX.sat_stream1.open(path.c_str(), std::ios::in | std::ios::binary);
if (BSX.sat_stream1.good())
{
BSX.sat_stream1.seekg(0, BSX.sat_stream1.end);
long str1size = BSX.sat_stream1.tellg();
BSX.sat_stream1.seekg(0, BSX.sat_stream1.beg);
float QueueSize = str1size / 22.;
BSX.sat_stream1_queue = (uint16)(ceil(QueueSize));
BSX.PPU[0x218D - BSXPPUBASE] = 0;
BSX.sat_stream1_first = TRUE;
BSX.sat_stream1_loaded = TRUE;
}
else
{
BSX.sat_stream1_loaded = FALSE;
}
}
void S9xBSXSetStream2 (uint8 count)
{
if (BSX.sat_stream2.is_open())
BSX.sat_stream2.close(); //If Stream already opened for one file: Close it.
std::string path = S9xGetDirectory(SAT_DIR) SLASH_STR;
char name[PATH_MAX];
snprintf(name, PATH_MAX, "BSXX-%d.bin", (BSX.PPU[0x218E - BSXPPUBASE] | (BSX.PPU[0x218F - BSXPPUBASE] * 256)), count); //BSXHHHH-DDD.bin
path = name;
BSX.sat_stream2.clear();
BSX.sat_stream2.open(path.c_str(), std::ios::in | std::ios::binary);
if (BSX.sat_stream2.good())
{
BSX.sat_stream2.seekg(0, BSX.sat_stream2.end);
long str2size = BSX.sat_stream2.tellg();
BSX.sat_stream2.seekg(0, BSX.sat_stream2.beg);
float QueueSize = str2size / 22.;
BSX.sat_stream2_queue = (uint16)(ceil(QueueSize));
BSX.PPU[0x2193 - BSXPPUBASE] = 0;
BSX.sat_stream2_first = TRUE;
BSX.sat_stream2_loaded = TRUE;
}
else
{
BSX.sat_stream2_loaded = FALSE;
}
}
uint8 S9xBSXGetRTC (void)
{
//Get Time
time_t t;
struct tm *tmr;
time(&t);
tmr = localtime(&t);
BSX.test2192[0] = 0x00;
BSX.test2192[1] = 0x00;
BSX.test2192[2] = 0x00;
BSX.test2192[3] = 0x00;
BSX.test2192[4] = 0x10;
BSX.test2192[5] = 0x01;
BSX.test2192[6] = 0x01;
BSX.test2192[7] = 0x00;
BSX.test2192[8] = 0x00;
BSX.test2192[9] = 0x00;
BSX.test2192[10] = BSX_RTC.seconds = tmr->tm_sec;
BSX.test2192[11] = BSX_RTC.minutes = tmr->tm_min;
BSX.test2192[12] = BSX_RTC.hours = tmr->tm_hour;
BSX.test2192[13] = BSX_RTC.dayweek = (tmr->tm_wday) 1;
BSX.test2192[14] = BSX_RTC.day = tmr->tm_mday;
BSX.test2192[15] = BSX_RTC.month = (tmr->tm_mon) 1;
BSX_RTC.year = tmr->tm_year 1900;
BSX.test2192[16] = (BSX_RTC.year) & 0xFF;
BSX.test2192[17] = (BSX_RTC.year) >> 8;
t = BSX.test2192[BSX.out_index ];
if (BSX.out_index > 22)
BSX.out_index = 0;
return t;
}
uint8 S9xGetBSXPPU (uint16 address)
{
uint8 t;
// known read registers
switch (address)
{
//Stream 1
// Logical Channel 1 Data Structure (R/W)
case 0x2188:
t = BSX.PPU[0x2188 - BSXPPUBASE];
break;
// Logical Channel 2 (R/W) [6bit]
case 0x2189:
t = BSX.PPU[0x2189 - BSXPPUBASE];
break;
// Prefix Count (R)
case 0x218A:
if (!BSX.sat_pf_latch1_enable || !BSX.sat_dt_latch1_enable)
{
t = 0;
break;
}
if (BSX.PPU[0x2188 - BSXPPUBASE] == 0 && BSX.PPU[0x2189 - BSXPPUBASE] == 0)
{
t = 1;
break;
}
if (BSX.sat_stream1_queue <= 0)
{
BSX.sat_stream1_count ;
S9xBSXSetStream1(BSX.sat_stream1_count - 1);
}
if (!BSX.sat_stream1_loaded && (BSX.sat_stream1_count - 1) > 0)
{
BSX.sat_stream1_count = 1;
S9xBSXSetStream1(BSX.sat_stream1_count - 1);
}
if (BSX.sat_stream1_loaded)
{
//Lock at 0x7F for bigger packets
if (BSX.sat_stream1_queue >= 128)
BSX.PPU[0x218A - BSXPPUBASE] = 0x7F;
else
BSX.PPU[0x218A - BSXPPUBASE] = BSX.sat_stream1_queue;
t = BSX.PPU[0x218A - BSXPPUBASE];
}
else
t = 0;
break;
// Prefix Latch (R/W)
case 0x218B:
if (BSX.sat_pf_latch1_enable)
{
if (BSX.PPU[0x2188 - BSXPPUBASE] == 0 && BSX.PPU[0x2189 - BSXPPUBASE] == 0)
{
BSX.PPU[0x218B - BSXPPUBASE] = 0x90;
}
if (BSX.sat_stream1_loaded)
{
uint8 temp = 0;
if (BSX.sat_stream1_first)
{
// First packet
temp |= 0x10;
BSX.sat_stream1_first = FALSE;
}
BSX.sat_stream1_queue--;
if (BSX.sat_stream1_queue == 0)
{
//Last packet
temp |= 0x80;
}
BSX.PPU[0x218B - BSXPPUBASE] = temp;
}
BSX.PPU[0x218D - BSXPPUBASE] |= BSX.PPU[0x218B - BSXPPUBASE];
t = BSX.PPU[0x218B - BSXPPUBASE];
}
else
{
t = 0;
}
break;
// Data Latch (R/W)
case 0x218C:
if (BSX.sat_dt_latch1_enable)
{
if (BSX.PPU[0x2188 - BSXPPUBASE] == 0 && BSX.PPU[0x2189 - BSXPPUBASE] == 0)
{
BSX.PPU[0x218C - BSXPPUBASE] = S9xBSXGetRTC();
}
else if (BSX.sat_stream1_loaded)
{
if (BSX.sat_stream1.eof())
BSX.PPU[0x218C - BSXPPUBASE] = 0xFF;
else
BSX.PPU[0x218C - BSXPPUBASE] = BSX.sat_stream1.get();
}
t = BSX.PPU[0x218C - BSXPPUBASE];
}
else
{
t = 0;
}
break;
// OR gate (R)
case 0x218D:
t = BSX.PPU[0x218D - BSXPPUBASE];
BSX.PPU[0x218D - BSXPPUBASE] = 0;
break;
//Stream 2
// Logical Channel 1 Data Structure (R/W)
case 0x218E:
t = BSX.PPU[0x218E - BSXPPUBASE];
break;
// Logical Channel 2 (R/W) [6bit]
case 0x218F:
t = BSX.PPU[0x218F - BSXPPUBASE];
break;
// Prefix Count (R)
case 0x2190:
if (!BSX.sat_pf_latch2_enable || !BSX.sat_dt_latch2_enable)
{
t = 0;
break;
}
if (BSX.PPU[0x218E - BSXPPUBASE] == 0 && BSX.PPU[0x218F - BSXPPUBASE] == 0)
{
t = 1;
break;
}
if (BSX.sat_stream2_queue <= 0)
{
BSX.sat_stream2_count ;
S9xBSXSetStream2(BSX.sat_stream2_count - 1);
}
if (!BSX.sat_stream2_loaded && (BSX.sat_stream2_count - 1) > 0)
{
BSX.sat_stream2_count = 1;
S9xBSXSetStream2(BSX.sat_stream2_count - 1);
}
if (BSX.sat_stream2_loaded)
{
if (BSX.sat_stream2_queue >= 128)
BSX.PPU[0x2190 - BSXPPUBASE] = 0x7F;
else