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|
// license:BSD-3-Clause
// copyright-holders:Angelo Salese
/***************************************************************************
Midway Quicksilver II/Graphite skeleton driver
Hardware configurations:
Hydro Thunder: Quicksilver II system and Diego I/O board
Offroad Thunder: Quicksilver II system and Magicbus I/O board
Arctic Thunder: Graphite system and Substitute I/O board
All of the games communicate with their I/O boards serially.
Quicksilver II hardware:
- Main CPU: Intel Celeron (Pentium II) 333/366MHz
- Motherboard: Intel SE440BX-2
- RAM: 64MB PC100-222-620 non-ecc
- Sound: Integrated YMF740G
- Networking: SMC EZ Card 10 / SMC1208T (probably 10ec:8029 1113:1208)
- Video Card: Quantum Obsidian 3DFX Voodoo 2 (CPLD protected)
- Storage: Hard Drive
- OS: TNT Embedded Kernel
Chipsets (440BX AGPset):
- 82443BX Northbridge
- 82371EB PIIX4 PCI-ISA Southbridge
Note: This was once claimed to run on Windows 95 or 98 but has been proven (mostly) false. The TNT Kernel was a "DOS Extender"
that allows core Windows NT functions to work on MS DOS. It's also possible it runs on a custom made OS as both games do not display
anything DOS related.
Graphite hardware:
- Main CPU: Intel Pentium III 733MHz
- Motherboard: BCM GT694VP
- RAM: 128MB PC100/133
- Sound: Integrated AC97 Controller on VT82C686A Southbridge
-or ES1373/CT5880 Audio Chip
- Networking: SMC EZ Card 10 / SMC1208T (probably 10ec:8029 1113:1208)
- Video Card: 3DFX Voodoo 3
- Storage: Hard Drive (copy protected)
- OS: Windows 2000 Professional
Chipsets (VIA Pro133A):
- VT82C694X Northbridge
- VT82C686A Southbridge
Note: Entirely different motherboard/chipset hardware (most likely needs its own driver). This game's storage device has a
copy protection scheme that "locks" the storage device to the motherboard's serial number. If a drive doesn't match the
motherboard's serial number, the game launcher will give an error.
I/O boards:
MIDWAY GAMES INC
5770-15983-04
DIEGO
|--------------------------------------------------------------|
| JP13 JP14 JP15 J1 JP2 |
| |
| JP1 JP5 JP6 |
| JP4 |
| JP3 |
| U1 |
| JP11 U2 U3 |
| |
| U12 JP12 |
|JP9 |
| U5 U6 U10 JP8|
| U8 S1 |
| Y2 |
| U7 Q2 U4 |
| |
| JP15 J2 J3 |
| P1 JP10 JP7 |
|--------------------------------------------------------------|
Notes:
J1: Video connector from/to video card
J2/J3: USB ports (not used)
JP1: Alternate video connector from/to video card
JP2: Video output signal to monitor
JP3: 3 pin jumper: Blue video level, *Open: high, 1-2: low, 2-3: high
JP4: 3 pin jumper: Green video level, *Open: high, 1-2: low, 2-3: high
JP5: 3 pin jumper: Red video level, *Open: high, 1-2: low, 2-3: high
JP6: 3 pin jumper: Video sync polarity, *Open: pos, 1-2: neg, 2-3: pos
JP7: 13 pin connector for switches and analog controls/potentiometers
JP8: 14 pin connector for coin, service, volume and test inputs
JP9: 20 pin ribbon cable connector to wheel driver board
JP10: 9 pin connector for coin meter
JP11: 2 pin connector for watchdog reset
JP12: connector for development use, not used
JP13-14: connectors, not used
JP15: Alternate serial port
JP16: Power connector
P1: DB9 serial port to computer
Q2: ULN2064B Darlington Transistor
S1: Dip Switches (8).
S1-3: *Off: Game Mode, On: Test Mode
S1-4: *Off: 25" Cabinet, On: 39" Cabinet
S1-8: Off: Watchdog Disabled, *On: Watchdog Enabled
U1: Texas Instruments LS85A Logic Gate
U2-3: EL244CS Amplifier
U4: LTC1098 8-bit Serial A/D converter
U5: PC16550DV UART Interface IC
U6: Motorola MC74HC273A Octal D Flip-Flop (LS273 based)
U7: DS14185WM RS-232 Interface IC
U8: CY7C63513-PVC 8-bit RISC Microcontroller @12MHz (6MHz OSC)
U10: Atmel 24C01A Serial EEPROM
U12: MAX707CSA Supervisory Circuit
Y2: Crystal/XTAL 6.000 MHz
MIDWAY GAMES INC
5770-16226-01
MAGICBUS
|--------------------------------------------------------------------------------------------|
| J2 JP21 JP22 JP12 JP9 J1 |
| JP24 JP6 |
| P1 JP5 JP3 JP2 JP1 |
| JP23 U19 |
| U22 JP4 |
|JP10 Q4 U2 U3 U1 |
| U17 |
| Y1 U18 |
| U5 |
| U20 |
|JP11 U21 |
| |
| U6 S2 S1 |
| JP20 |
| |
|JP16 U12 U16 U15 |
| |
| U11 |
| JP17 JP19 JP18 JP13 JP14 JP15 |
|--------------------------------------------------------------------------------------------|
Notes:
J1: Video connector from/to video card
J2: USB port (not used)
JP1: 3 pin jumper: Blue video level, *Open: high, 1-2: low, 2-3: high
JP2: 3 pin jumper: Green video level, *Open: high, 1-2: low, 2-3: high
JP3: 3 pin jumper: Red video level, *Open: high, 1-2: low, 2-3: high
JP4: 3 pin jumper: Video sync polarity, Open: pos, *1-2: neg, 2-3: pos
JP5: Alternate video connector from/to video card
JP6: Video output signal to monitor
JP9: Power connector
JP10: 20 pin ribbon cable connector to wheel driver board
JP11: 20 pin ribbon cable connector, not used
JP12-14: connectors, not used
JP15: 14 pin connector for analog controls/potentiometers
JP16: 15 pin connector for gameplay inputs
JP17: connector, not used
JP18: 14 pin connector for coin, service, volume and test inputs
JP19: connector, not used
JP20: connector for development use, not used
JP21: 2 pin connector for watchdog reset
JP22: 9 pin connector for coin meter
JP23: Alternate serial port
JP24: connector, not used
P1: DB9 serial port to computer
Q4: ULN2064B Darlington Transistor
S1: Dip Switches (8)
S1-7: *Off: UART, On: USB
S1-8: *Off: Watchdog Enabled, On: Watchdog Disabled
S2: Dip Switches (8), all set to "off"
U1: LS85A Logic Gate
U2-3: EL244CS Amplifier
U5: MAX707CSA Supervisory Circuit
U6: Motorola MC74HC273A Octal D Flip-Flop (LS273 based)
U11: ADC0834 Serial I/O Converter
U12-15: HC541 Octal Buffer
U17: Atmel 24C01A Serial EEPROM
U18: CY7C63513-PVC 8-bit RISC Microcontroller @12MHz (6MHz OSC)
U19: DS14185WM RS-232 Interface IC
U20: PC16550DV UART Interface IC
U21: Oscillator 3.6864 MHz
U22: HC04 Hex Inverter
Y1: Crystal/XTAL 6.000 MHz
MIDWAY GAMES INC.
SUBSTITUTE MAGICBUS
5770-16367-02
|--------------------------------------------------------------------------------------------|
| J2 P1 JP21 JP22 JP12 JP9 J1 |
| JP23 JP24 JP6 |
| U21 U24 U22 JP5 JP3 JP2 JP1 |
| |
| U23 JP4 |
|JP10 |
| U11 U7 U8 |
| |
| |
| U6 |
|JP11 Y2 U20 |
| |
| U25 U4 |
| S2 S1 |
|JP16 U15 U16 U17 U19 U18 U5 U13 U12 U14 |
| |
| |
| |
| JP17 JP19 JP18 JP13 JP14 JP15 |
|--------------------------------------------------------------------------------------------|
Notes:
J1/JP5: Video connector from/to video card, not used
J2: USB port, not used
JP1-4: Video signal jumpers, not used
JP6: Video output signal to monitor, not used
JP9: Power connector
JP10: 20 pin ribbon cable connector to wheel driver board
JP11: 20 pin ribbon cable connector, not used
JP12-14: connectors, not used
JP15: 14 pin connector for analog controls/potentiometers
JP16: 15 pin connector, attack button
JP17: connector, not used
JP18: 14 pin connector for coin, service, volume and test inputs
JP19: 8 pin connector, start button
JP20: connector for development use, not used
JP21: 2 pin connector for watchdog reset
JP22: 9 pin connector for coin meter
JP23: Alternate serial port
JP24: connector, not used
P1: DB9 serial port to computer
S1: Dip Switches (8)
S1: Dip Switches (8)
S1-7: *Off: UART, On: USB
S1-8: *Off: Watchdog Enabled, On: Watchdog Disabled
S2: Dip Switches (8)
U4-5: MC74HC273A Octal D Flip-Flop (LS273 based)
U6: 74HC04D Hex inverter
U7: MAX707CSA Supervisory Circuit
U8: MAX765CSA Switching Voltage Regulator
U11: Atmel 24C01A Serial EEPROM
U12-19: HC541 Octal Buffer
U20: 87C552 8-bit Microcontroller (Intel MCS-51 based with a 10-bit A/D converter) @ 16MHz
U21: DS14185WM RS-232 Interface IC
U22-24: ULN2064B Darlington Transistor
U25: 74HC367D Hex Buffer/Line Driver
Y2: Crystal/XTAL 16.000 MHz
***************************************************************************/
#include "emu.h"
#include "cpu/i386/i386.h"
#include "machine/lpci.h"
#include "machine/pcshare.h"
#include "machine/pckeybrd.h"
#include "machine/idectrl.h"
#include "video/pc_vga.h"
namespace {
class midqslvr_state : public pcat_base_state
{
public:
midqslvr_state(const machine_config &mconfig, device_type type, const char *tag)
: pcat_base_state(mconfig, type, tag)
{
}
void midqslvr(machine_config &config);
void graphite(machine_config &config);
protected:
virtual void machine_start() override;
virtual void machine_reset() override;
private:
std::unique_ptr<uint32_t[]> m_bios_ram;
std::unique_ptr<uint32_t[]> m_bios_ext1_ram;
std::unique_ptr<uint32_t[]> m_bios_ext2_ram;
std::unique_ptr<uint32_t[]> m_bios_ext3_ram;
std::unique_ptr<uint32_t[]> m_bios_ext4_ram;
std::unique_ptr<uint32_t[]> m_isa_ram1;
std::unique_ptr<uint32_t[]> m_isa_ram2;
uint8_t m_mtxc_config_reg[256];
uint8_t m_piix4_config_reg[4][256];
void isa_ram1_w(offs_t offset, uint32_t data, uint32_t mem_mask = ~0);
void isa_ram2_w(offs_t offset, uint32_t data, uint32_t mem_mask = ~0);
void bios_ext1_ram_w(offs_t offset, uint32_t data, uint32_t mem_mask = ~0);
void bios_ext2_ram_w(offs_t offset, uint32_t data, uint32_t mem_mask = ~0);
void bios_ext3_ram_w(offs_t offset, uint32_t data, uint32_t mem_mask = ~0);
void bios_ext4_ram_w(offs_t offset, uint32_t data, uint32_t mem_mask = ~0);
void bios_ram_w(offs_t offset, uint32_t data, uint32_t mem_mask = ~0);
void intel82439tx_init();
void midqslvr_io(address_map &map);
void midqslvr_map(address_map &map);
uint8_t mtxc_config_r(int function, int reg);
void mtxc_config_w(int function, int reg, uint8_t data);
uint32_t intel82439tx_pci_r(int function, int reg, uint32_t mem_mask);
void intel82439tx_pci_w(int function, int reg, uint32_t data, uint32_t mem_mask);
uint8_t piix4_config_r(int function, int reg);
void piix4_config_w(int function, int reg, uint8_t data);
uint32_t intel82371ab_pci_r(int function, int reg, uint32_t mem_mask);
void intel82371ab_pci_w(int function, int reg, uint32_t data, uint32_t mem_mask);
};
// Intel 82439TX System Controller (MTXC)
uint8_t midqslvr_state::mtxc_config_r(int function, int reg)
{
// osd_printf_debug("MTXC: read %d, %02X\n", function, reg);
if((reg & 0xfc) == 0 && function == 0) // return vendor ID
return (0x71008086 >> (reg & 3)*8) & 0xff;
return m_mtxc_config_reg[reg];
}
void midqslvr_state::mtxc_config_w(int function, int reg, uint8_t data)
{
printf("MTXC: write %d, %02X, %02X\n", function, reg, data);
/*
memory banking with North Bridge:
0x59 (PAM0) xxxx ---- BIOS area 0xf0000-0xfffff
---- xxxx Reserved
0x5a (PAM1) xxxx ---- ISA add-on BIOS 0xc4000 - 0xc7fff
---- xxxx ISA add-on BIOS 0xc0000 - 0xc3fff
0x5b (PAM2) xxxx ---- ISA add-on BIOS 0xcc000 - 0xcffff
---- xxxx ISA add-on BIOS 0xc8000 - 0xcbfff
0x5c (PAM3) xxxx ---- ISA add-on BIOS 0xd4000 - 0xd7fff
---- xxxx ISA add-on BIOS 0xd0000 - 0xd3fff
0x5d (PAM4) xxxx ---- ISA add-on BIOS 0xdc000 - 0xdffff
---- xxxx ISA add-on BIOS 0xd8000 - 0xdbfff
0x5e (PAM5) xxxx ---- BIOS extension 0xe4000 - 0xe7fff
---- xxxx BIOS extension 0xe0000 - 0xe3fff
0x5f (PAM6) xxxx ---- BIOS extension 0xec000 - 0xeffff
---- xxxx BIOS extension 0xe8000 - 0xebfff
3210 -> 3 = reserved, 2 = Cache Enable, 1 = Write Enable, 0 = Read Enable
*/
switch(reg)
{
case 0x59: // PAM0
{
if (data & 0x10) // enable RAM access to region 0xf0000 - 0xfffff
membank("bios_bank")->set_base(m_bios_ram.get());
else // disable RAM access (reads go to BIOS ROM)
membank("bios_bank")->set_base(memregion("bios")->base() + 0x70000);
break;
}
case 0x5a: // PAM1
{
if (data & 0x1)
membank("video_bank1")->set_base(m_isa_ram1.get());
else
membank("video_bank1")->set_base(memregion("video_bios")->base() + 0);
if (data & 0x10)
membank("video_bank2")->set_base(m_isa_ram2.get());
else
membank("video_bank2")->set_base(memregion("video_bios")->base() + 0x4000);
break;
}
case 0x5e: // PAM5
{
if (data & 0x1)
membank("bios_ext1")->set_base(m_bios_ext1_ram.get());
else
membank("bios_ext1")->set_base(memregion("bios")->base() + 0x60000);
if (data & 0x10)
membank("bios_ext2")->set_base(m_bios_ext2_ram.get());
else
membank("bios_ext2")->set_base(memregion("bios")->base() + 0x64000);
break;
}
case 0x5f: // PAM6
{
if (data & 0x1)
membank("bios_ext3")->set_base(m_bios_ext3_ram.get());
else
membank("bios_ext3")->set_base(memregion("bios")->base() + 0x68000);
if (data & 0x10)
membank("bios_ext4")->set_base(m_bios_ext4_ram.get());
else
membank("bios_ext4")->set_base(memregion("bios")->base() + 0x6c000);
break;
}
}
m_mtxc_config_reg[reg] = data;
}
void midqslvr_state::intel82439tx_init()
{
m_mtxc_config_reg[0x60] = 0x02;
m_mtxc_config_reg[0x61] = 0x02;
m_mtxc_config_reg[0x62] = 0x02;
m_mtxc_config_reg[0x63] = 0x02;
m_mtxc_config_reg[0x64] = 0x02;
m_mtxc_config_reg[0x65] = 0x02;
}
uint32_t midqslvr_state::intel82439tx_pci_r(int function, int reg, uint32_t mem_mask)
{
uint32_t r = 0;
if (ACCESSING_BITS_24_31)
{
r |= mtxc_config_r(function, reg + 3) << 24;
}
if (ACCESSING_BITS_16_23)
{
r |= mtxc_config_r(function, reg + 2) << 16;
}
if (ACCESSING_BITS_8_15)
{
r |= mtxc_config_r(function, reg + 1) << 8;
}
if (ACCESSING_BITS_0_7)
{
r |= mtxc_config_r(function, reg + 0) << 0;
}
return r;
}
void midqslvr_state::intel82439tx_pci_w(int function, int reg, uint32_t data, uint32_t mem_mask)
{
if (ACCESSING_BITS_24_31)
{
mtxc_config_w(function, reg + 3, (data >> 24) & 0xff);
}
if (ACCESSING_BITS_16_23)
{
mtxc_config_w(function, reg + 2, (data >> 16) & 0xff);
}
if (ACCESSING_BITS_8_15)
{
mtxc_config_w(function, reg + 1, (data >> 8) & 0xff);
}
if (ACCESSING_BITS_0_7)
{
mtxc_config_w(function, reg + 0, (data >> 0) & 0xff);
}
}
// Intel 82371AB PCI-to-ISA / IDE bridge (PIIX4)
uint8_t midqslvr_state::piix4_config_r(int function, int reg)
{
function &= 3;
if((reg & 0xfc) == 0) // return vendor ID
return (((0x71108086 | (function & 3) << 16) >> (reg & 3)*8) & 0xff);
if(reg == 0xe)
{
const uint8_t header_type_val[4] = { 0x80, 0x00, 0x00, 0x00 };
return header_type_val[function];
}
if((reg & 0xfc) == 0x8)
{
/* TODO: reg 8 indicates Revision ID */
const uint32_t class_code_val[4] = { 0x06010000, 0x01018000, 0x0c030000, 0x06800000 };
return (((class_code_val[function]) >> (reg & 3)*8) & 0xff);
}
printf("%08x PIIX4: read %d, %02X\n", m_maincpu->pc(), function, reg);
return m_piix4_config_reg[function][reg];
}
void midqslvr_state::piix4_config_w(int function, int reg, uint8_t data)
{
printf("PIIX4: write %d, %02X, %02X\n", function, reg, data);
function &= 3;
m_piix4_config_reg[function][reg] = data;
}
uint32_t midqslvr_state::intel82371ab_pci_r(int function, int reg, uint32_t mem_mask)
{
uint32_t r = 0;
if (ACCESSING_BITS_24_31)
{
r |= piix4_config_r(function, reg + 3) << 24;
}
if (ACCESSING_BITS_16_23)
{
r |= piix4_config_r(function, reg + 2) << 16;
}
if (ACCESSING_BITS_8_15)
{
r |= piix4_config_r(function, reg + 1) << 8;
}
if (ACCESSING_BITS_0_7)
{
r |= piix4_config_r(function, reg + 0) << 0;
}
return r;
}
void midqslvr_state::intel82371ab_pci_w(int function, int reg, uint32_t data, uint32_t mem_mask)
{
if (ACCESSING_BITS_24_31)
{
piix4_config_w(function, reg + 3, (data >> 24) & 0xff);
}
if (ACCESSING_BITS_16_23)
{
piix4_config_w(function, reg + 2, (data >> 16) & 0xff);
}
if (ACCESSING_BITS_8_15)
{
piix4_config_w(function, reg + 1, (data >> 8) & 0xff);
}
if (ACCESSING_BITS_0_7)
{
piix4_config_w(function, reg + 0, (data >> 0) & 0xff);
}
}
void midqslvr_state::isa_ram1_w(offs_t offset, uint32_t data, uint32_t mem_mask)
{
if (m_mtxc_config_reg[0x5a] & 0x2) // write to RAM if this region is write-enabled
{
COMBINE_DATA(m_isa_ram1.get() + offset);
}
}
void midqslvr_state::isa_ram2_w(offs_t offset, uint32_t data, uint32_t mem_mask)
{
if (m_mtxc_config_reg[0x5a] & 0x2) // write to RAM if this region is write-enabled
{
COMBINE_DATA(m_isa_ram2.get() + offset);
}
}
void midqslvr_state::bios_ext1_ram_w(offs_t offset, uint32_t data, uint32_t mem_mask)
{
if (m_mtxc_config_reg[0x5e] & 0x2) // write to RAM if this region is write-enabled
{
COMBINE_DATA(m_bios_ext1_ram.get() + offset);
}
}
void midqslvr_state::bios_ext2_ram_w(offs_t offset, uint32_t data, uint32_t mem_mask)
{
if (m_mtxc_config_reg[0x5e] & 0x20) // write to RAM if this region is write-enabled
{
COMBINE_DATA(m_bios_ext2_ram.get() + offset);
}
}
void midqslvr_state::bios_ext3_ram_w(offs_t offset, uint32_t data, uint32_t mem_mask)
{
if (m_mtxc_config_reg[0x5f] & 0x2) // write to RAM if this region is write-enabled
{
COMBINE_DATA(m_bios_ext3_ram.get() + offset);
}
}
void midqslvr_state::bios_ext4_ram_w(offs_t offset, uint32_t data, uint32_t mem_mask)
{
if (m_mtxc_config_reg[0x5f] & 0x20) // write to RAM if this region is write-enabled
{
COMBINE_DATA(m_bios_ext4_ram.get() + offset);
}
}
void midqslvr_state::bios_ram_w(offs_t offset, uint32_t data, uint32_t mem_mask)
{
if (m_mtxc_config_reg[0x59] & 0x20) // write to RAM if this region is write-enabled
{
COMBINE_DATA(m_bios_ram.get() + offset);
}
}
void midqslvr_state::midqslvr_map(address_map &map)
{
map(0x00000000, 0x0009ffff).ram();
map(0x000a0000, 0x000bffff).rw("vga", FUNC(vga_device::mem_r), FUNC(vga_device::mem_w));
map(0x000c0000, 0x000c3fff).bankr("video_bank1").w(FUNC(midqslvr_state::isa_ram1_w));
map(0x000c4000, 0x000c7fff).bankr("video_bank2").w(FUNC(midqslvr_state::isa_ram2_w));
map(0x000e0000, 0x000e3fff).bankr("bios_ext1").w(FUNC(midqslvr_state::bios_ext1_ram_w));
map(0x000e4000, 0x000e7fff).bankr("bios_ext2").w(FUNC(midqslvr_state::bios_ext2_ram_w));
map(0x000e8000, 0x000ebfff).bankr("bios_ext3").w(FUNC(midqslvr_state::bios_ext3_ram_w));
map(0x000ec000, 0x000effff).bankr("bios_ext4").w(FUNC(midqslvr_state::bios_ext4_ram_w));
map(0x000f0000, 0x000fffff).bankr("bios_bank").w(FUNC(midqslvr_state::bios_ram_w));
map(0x00100000, 0x01ffffff).ram();
map(0xfff80000, 0xffffffff).rom().region("bios", 0); /* System BIOS */
}
void midqslvr_state::midqslvr_io(address_map &map)
{
pcat32_io_common(map);
map(0x00e8, 0x00ef).noprw();
map(0x01f0, 0x01f7).rw("ide", FUNC(ide_controller_device::cs0_r), FUNC(ide_controller_device::cs0_w));
map(0x03b0, 0x03bf).rw("vga", FUNC(vga_device::port_03b0_r), FUNC(vga_device::port_03b0_w));
map(0x03c0, 0x03cf).rw("vga", FUNC(vga_device::port_03c0_r), FUNC(vga_device::port_03c0_w));
map(0x03d0, 0x03df).rw("vga", FUNC(vga_device::port_03d0_r), FUNC(vga_device::port_03d0_w));
map(0x03f0, 0x03f7).rw("ide", FUNC(ide_controller_device::cs1_r), FUNC(ide_controller_device::cs1_w));
map(0x0cf8, 0x0cff).rw("pcibus", FUNC(pci_bus_legacy_device::read), FUNC(pci_bus_legacy_device::write));
}
void midqslvr_state::machine_start()
{
m_bios_ram = std::make_unique<uint32_t[]>(0x10000/4);
m_bios_ext1_ram = std::make_unique<uint32_t[]>(0x4000/4);
m_bios_ext2_ram = std::make_unique<uint32_t[]>(0x4000/4);
m_bios_ext3_ram = std::make_unique<uint32_t[]>(0x4000/4);
m_bios_ext4_ram = std::make_unique<uint32_t[]>(0x4000/4);
m_isa_ram1 = std::make_unique<uint32_t[]>(0x4000/4);
m_isa_ram2 = std::make_unique<uint32_t[]>(0x4000/4);
intel82439tx_init();
}
void midqslvr_state::machine_reset()
{
membank("bios_bank")->set_base(memregion("bios")->base() + 0x70000);
membank("bios_ext1")->set_base(memregion("bios")->base() + 0x60000);
membank("bios_ext2")->set_base(memregion("bios")->base() + 0x64000);
membank("bios_ext3")->set_base(memregion("bios")->base() + 0x68000);
membank("bios_ext4")->set_base(memregion("bios")->base() + 0x6c000);
membank("video_bank1")->set_base(memregion("video_bios")->base() + 0);
membank("video_bank2")->set_base(memregion("video_bios")->base() + 0x4000);
}
void midqslvr_state::midqslvr(machine_config &config)
{
PENTIUM2(config, m_maincpu, 333000000); //Verified this Celeron to be Pentium II based.
m_maincpu->set_addrmap(AS_PROGRAM, &midqslvr_state::midqslvr_map);
m_maincpu->set_addrmap(AS_IO, &midqslvr_state::midqslvr_io);
m_maincpu->set_irq_acknowledge_callback("pic8259_1", FUNC(pic8259_device::inta_cb));
pcat_common(config);
pci_bus_legacy_device &pcibus(PCI_BUS_LEGACY(config, "pcibus", 0, 0));
pcibus.set_device( 0, FUNC(midqslvr_state::intel82439tx_pci_r), FUNC(midqslvr_state::intel82439tx_pci_w));
pcibus.set_device(31, FUNC(midqslvr_state::intel82371ab_pci_r), FUNC(midqslvr_state::intel82371ab_pci_w));
ide_controller_device &ide(IDE_CONTROLLER(config, "ide").options(ata_devices, "hdd", nullptr, true));
ide.irq_handler().set("pic8259_2", FUNC(pic8259_device::ir6_w));
/* video hardware */
pcvideo_vga(config);
}
void midqslvr_state::graphite(machine_config &config) //Todo: The entire Pro133A chipset :).
{
PENTIUM3(config, m_maincpu, 733000000); //Verified
m_maincpu->set_addrmap(AS_PROGRAM, &midqslvr_state::midqslvr_map);
m_maincpu->set_addrmap(AS_IO, &midqslvr_state::midqslvr_io);
m_maincpu->set_irq_acknowledge_callback("pic8259_1", FUNC(pic8259_device::inta_cb));
pcat_common(config);
pci_bus_legacy_device &pcibus(PCI_BUS_LEGACY(config, "pcibus", 0, 0));
pcibus.set_device( 0, FUNC(midqslvr_state::intel82439tx_pci_r), FUNC(midqslvr_state::intel82439tx_pci_w));
pcibus.set_device(31, FUNC(midqslvr_state::intel82371ab_pci_r), FUNC(midqslvr_state::intel82371ab_pci_w));
ide_controller_device &ide(IDE_CONTROLLER(config, "ide").options(ata_devices, "hdd", nullptr, true));
ide.irq_handler().set("pic8259_2", FUNC(pic8259_device::ir6_w));
/* video hardware */
pcvideo_vga(config);
}
ROM_START( hydrthnd )
ROM_REGION32_LE(0x80000, "bios", 0)
ROM_LOAD( "lh28f004sct.u8b1", 0x000000, 0x080000, CRC(ab04a343) SHA1(ba77933400fe470f45ab187bc0d315922caadb12) )
ROM_REGION( 0x8000, "video_bios", ROMREGION_ERASEFF ) // TODO: Voodoo 2 has no bios, to be removed once the driver is updated not to look for this region
// ROM_LOAD16_BYTE( "trident_tgui9680_bios.bin", 0x0000, 0x4000, BAD_DUMP CRC(1eebde64) SHA1(67896a854d43a575037613b3506aea6dae5d6a19) )
// ROM_CONTINUE( 0x0001, 0x4000 )
ROM_REGION( 0x2000, "iocpu", 0 ) /* Diego board CY7C63513 MCU code */
ROM_LOAD( "diego.u8", 0x0000, 0x2000, NO_DUMP ) // 8KB internal EPROM
DISK_REGION( "ide:0:hdd:image" )
DISK_IMAGE( "hydro", 0, SHA1(d481d178782943c066b41764628a419cd55f676d) )
ROM_END
ROM_START( offrthnd )
ROM_REGION32_LE(0x80000, "bios", 0)
ROM_LOAD( "lh28f004sct.u8b1", 0x000000, 0x080000, CRC(ab04a343) SHA1(ba77933400fe470f45ab187bc0d315922caadb12) )
ROM_REGION( 0x8000, "video_bios", ROMREGION_ERASEFF ) // TODO: Voodoo 2 has no bios, to be removed once the driver is updated not to look for this region
// ROM_LOAD16_BYTE( "trident_tgui9680_bios.bin", 0x0000, 0x4000, BAD_DUMP CRC(1eebde64) SHA1(67896a854d43a575037613b3506aea6dae5d6a19) )
// ROM_CONTINUE( 0x0001, 0x4000 )
ROM_REGION( 0x2000, "iocpu", 0 ) /* Magicbus board CY7C63513 MCU code */
ROM_LOAD( "magicbus.u18", 0x0000, 0x2000, NO_DUMP ) // 8KB internal EPROM
DISK_REGION( "ide:0:hdd:image" )
DISK_IMAGE( "offrthnd", 0, SHA1(d88f1c5b75361a1e310565a8a5a09c674a4a1a22) )
ROM_END
ROM_START( arctthnd )
ROM_REGION32_LE(0x80000, "bios", ROMREGION_ERASEFF)
ROM_LOAD( "m29f002bt.u6", 0x040000, 0x040000, CRC(012c9290) SHA1(cdee6f19d5e5ea5bb1dd6a5ec397ac70b3452790) )
ROM_REGION( 0x8000, "video_bios", ROMREGION_ERASEFF ) // TODO: Voodoo 2 has no bios, to be removed once the driver is updated not to look for this region
// ROM_LOAD16_BYTE( "trident_tgui9680_bios.bin", 0x0000, 0x4000, BAD_DUMP CRC(1eebde64) SHA1(67896a854d43a575037613b3506aea6dae5d6a19) )
// ROM_CONTINUE( 0x0001, 0x4000 )
ROM_REGION( 0x2000, "iocpu", 0 ) /* Substitute board 87C552 MCU code */
ROM_LOAD( "87c552.bin", 0x0000, 0x2000, NO_DUMP ) // 8KB internal EPROM
DISK_REGION( "ide:0:hdd:image" )
DISK_IMAGE( "arctthnd", 0, SHA1(f4373e57c3f453ac09c735b5d8d99ff811416a23) )
ROM_END
ROM_START( ultarctc )
ROM_REGION32_LE(0x80000, "bios", ROMREGION_ERASEFF)
ROM_LOAD( "m29f002bt.u6", 0x040000, 0x040000, CRC(012c9290) SHA1(cdee6f19d5e5ea5bb1dd6a5ec397ac70b3452790) )
ROM_REGION( 0x8000, "video_bios", ROMREGION_ERASEFF ) // TODO: Voodoo 2 has no bios, to be removed once the driver is updated not to look for this region
// ROM_LOAD16_BYTE( "trident_tgui9680_bios.bin", 0x0000, 0x4000, BAD_DUMP CRC(1eebde64) SHA1(67896a854d43a575037613b3506aea6dae5d6a19) )
// ROM_CONTINUE( 0x0001, 0x4000 )
ROM_REGION( 0x2000, "iocpu", 0 ) /* Substitute board 87C552 MCU code */
ROM_LOAD( "87c552.bin", 0x0000, 0x2000, NO_DUMP ) // 8KB internal EPROM
DISK_REGION( "ide:0:hdd:image" )
DISK_IMAGE( "uarctict", 0, SHA1(8557a1d7ae8dc41c879350cb1c228f4c27a0dd09) )
ROM_END
/* This is an update CD. This CD along with a dongle was released as a kit to update a normal Arctic Thunder to Ultimate.
Ultimate Arctic Thunder requires a dongle to work. If the dongle isn't detected both during and after installation,
the game will revert back to normal Arctic Thunder. */
ROM_START( ultarctcup )
ROM_REGION32_LE(0x80000, "bios", ROMREGION_ERASEFF)
ROM_LOAD( "m29f002bt.u6", 0x040000, 0x040000, CRC(012c9290) SHA1(cdee6f19d5e5ea5bb1dd6a5ec397ac70b3452790) )
ROM_REGION( 0x8000, "video_bios", ROMREGION_ERASEFF ) // TODO: Voodoo 2 has no bios, to be removed once the driver is updated not to look for this region
// ROM_LOAD16_BYTE( "trident_tgui9680_bios.bin", 0x0000, 0x4000, BAD_DUMP CRC(1eebde64) SHA1(67896a854d43a575037613b3506aea6dae5d6a19) )
// ROM_CONTINUE( 0x0001, 0x4000 )
ROM_REGION( 0x2000, "iocpu", 0 ) /* Substitute board 87C552 MCU code */
ROM_LOAD( "87c552.bin", 0x0000, 0x2000, NO_DUMP ) // 8KB internal EPROM
DISK_REGION( "ide:0:hdd:image" )
DISK_IMAGE( "uarctict", 0, SHA1(8557a1d7ae8dc41c879350cb1c228f4c27a0dd09) )
DISK_REGION( "cd" )
DISK_IMAGE( "040503_1309", 0, SHA1(453adb81e204b0580ad02c2d98f68525757ec2a1) )
// sourced from these
// ROM_LOAD( "040503_1309.CUE", 0x0000, 0x000004d, CRC(4a9e2de5) SHA1(04d3d90ad4b235c0ac4606557e16a1410d018fa9) )
// ROM_LOAD( "040503_1309.BIN", 0x0000, 0x6bd9960, CRC(48a63422) SHA1(9d1cacf07526c5bddf4205c667a9010802f74859) )
ROM_END
} // Anonymous namespace
// there are almost certainly multiple versions of these; updates were offered on floppy disk. The version numbers for the existing CHDs are unknown.
GAME(1999, hydrthnd, 0, midqslvr, 0, midqslvr_state, empty_init, ROT0, "Midway Games", "Hydro Thunder", MACHINE_IS_SKELETON)
GAME(2000, offrthnd, 0, midqslvr, 0, midqslvr_state, empty_init, ROT0, "Midway Games", "Offroad Thunder", MACHINE_IS_SKELETON)
GAME(2001, arctthnd, 0, graphite, 0, midqslvr_state, empty_init, ROT0, "Midway Games", "Arctic Thunder (v1.002)", MACHINE_IS_SKELETON)
GAME(2001, ultarctc, 0, graphite, 0, midqslvr_state, empty_init, ROT0, "Midway Games", "Ultimate Arctic Thunder", MACHINE_IS_SKELETON)
GAME(2004, ultarctcup, ultarctc, graphite, 0, midqslvr_state, empty_init, ROT0, "Midway Games", "Ultimate Arctic Thunder Update CD ver 1.950 (5/3/04)", MACHINE_IS_SKELETON)
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