// license:BSD-3-Clause // copyright-holders:Samuele Zannoli /* Chihiro is an Xbox-based arcade system from SEGA. Games on this system include.... GD build date yyyymmdd Game Manufacturer / Developer Media Number Key Chip +-+----------+------------------------------------------------------+--------------------------+--------+------------+--------------| |*| 20021029 | The House of the Dead III | Sega / Wow Entertainment | GDROM | GDX-0001 | 317-0348-COM | | | 2003 | Crazy Taxi High Roller | Sega / Hitmaker | GDROM | GDX-0002 | 317-0353-COM | | | 2003 | Crazy Taxi High Roller (Rev A) | Sega / Hitmaker | GDROM | GDX-0002A | 317-0353-COM | |*| 20030224 | Crazy Taxi High Roller (Rev B) | Sega / Hitmaker | GDROM | GDX-0002B | 317-0353-COM | | | 2003 | Virtua Cop 3 | Sega | GDROM | GDX-0003 | 317-0354-COM | |*| 20030226 | Virtua Cop 3 (Rev A) | Sega | GDROM | GDX-0003A | 317-0354-COM | | | 20030226 | Virtua Cop 3 (Rev A) | Sega | CF | MDA-G0010 | 317-0354-COM | |*| 20030521 | Virtua Cop 3 (Rev B) | Sega | GDROM | GDX-0003B | 317-0354-COM | | | 2003 | OutRun 2 | Sega | GDROM | GDX-0004 | 317-0372-COM | |*| 20031017 | OutRun 2 (Rev A) | Sega | GDROM | GDX-0004A | 317-0372-COM | | | 200312 | OutRun 2 (Rev A) | Sega | CF | MDA-G0011 | 317-0372-COM | | | 20030911 | OutRun 2 prototype (Rev P) | Sega | GDROM | GDX-0004P | 317-0372-COM | | | 2004 | Sega Golf Club Network Pro Tour | Sega | GDROM | GDX-0005 | | | | 2004 | Sega Network Taisen Mahjong MJ 2 | Sega | GDROM | GDX-0006 | 317-0374-JPN | | | 2004 | Sega Network Taisen Mahjong MJ 2 (Rev A) | Sega | GDROM | GDX-0006A | 317-0374-JPN | | | 2004 | Sega Network Taisen Mahjong MJ 2 (Rev B) | Sega | GDROM | GDX-0006B | 317-0374-JPN | |*| 20041102 | Sega Network Taisen Mahjong MJ 2 (Rev C) | Sega | GDROM | GDX-0006C | 317-0374-JPN | | | 2004 | Sega Network Taisen Mahjong MJ 2 (Rev D) | Sega | GDROM | GDX-0006D | 317-0374-JPN | | | 2005 | Sega Network Taisen Mahjong MJ 2 (Rev E) | Sega | GDROM | GDX-0006E | 317-0374-JPN | |*| 2005 | Sega Network Taisen Mahjong MJ 2 (Rev F) | Sega | GDROM | GDX-0006F | 317-0374-JPN | |*| 20050202 | Sega Network Taisen Mahjong MJ 2 (Rev G) | Sega | GDROM | GDX-0006G | 317-0374-JPN | |*| 20031211 | Ollie King | Sega / Amusement Vision | GDROM | GDX-0007 | 317-0377-COM | | | 2004 | Wangan Midnight Maximum Tune (Japan) | Namco | GDROM | GDX-0008 | 317-5101-JPN | | | 2004 | Wangan Midnight Maximum Tune (Japan, Rev A) | Namco | GDROM | GDX-0008A | 317-5101-JPN | |*| 20040610 | Wangan Midnight Maximum Tune (Japan, Rev B) | Namco | GDROM | GDX-0008B | 317-5101-JPN | | | 2004 | Wangan Midnight Maximum Tune (Export) | Namco | GDROM | GDX-0009 | 317-5101-COM | | | 2004 | Wangan Midnight Maximum Tune (Export, Rev A) | Namco | GDROM | GDX-0009A | 317-5101-COM | |*| 20040610 | Wangan Midnight Maximum Tune (Export, Rev B) | Namco | GDROM | GDX-0009B | 317-5101-COM | | | 2004 | Sega Golf Club Network Pro Tour 2005 | Sega | GDROM | GDX-0010 | ??? | |*| 2004 | Sega Golf Club Network Pro Tour 2005 (Rev C) | Sega | GDROM | GDX-0010C | ??? | |*| 20040909 | OutRun 2 Special Tours (Japan) | Sega | GDROM | GDX-0011 | 317-0396-COM | |*| 20041229 | OutRun 2 Special Tours (Japan, Rev A) | Sega | GDROM | GDX-0011A | 317-0396-COM | |*| 20040914 | Ghost Squad | Sega | GDROM | GDX-0012 | 317-0398-COM | |*| 20041209 | Ghost Squad (Rev A) | Sega | GDROM | GDX-0012A | 317-0398-COM | | | 20041209 | Ghost Squad (Rev A) | Sega | CF | MDA-G0013 | 317-0398-COM | |*| 20050208 | Gundam Battle Operating Simulator | Banpresto | GDROM | GDX-0013 | 317-0400-JPN | |*| 20040910 | OutRun 2 Special Tours | Sega | GDROM | GDX-0014 | 317-0396-COM | |*| 20041229 | OutRun 2 Special Tours (Rev A) | Sega | GDROM | GDX-0014A | 317-0396-COM | | | 20041229 | OutRun 2 Special Tours (Rev A) | Sega | CF | MDA-G0012 | 317-0396-COM | |*| 20050218 | Wangan Midnight Maximum Tune 2 (Japan) | Namco | GDROM | GDX-0015 | 317-5106-JPN | |*| 20050908 | Wangan Midnight Maximum Tune 2 (Japan, Rev A) | Namco | GDROM | GDX-0015A | 317-5106-JPN | |*| 20050218 | Wangan Midnight Maximum Tune 2 (Export) | Namco | GDROM | GDX-0016 | 317-5106-COM | |*| 20050908 | Wangan Midnight Maximum Tune 2 (Export, Rev A) | Namco | GDROM | GDX-0016A | 317-5106-COM | | | 2005 | Sega Network Taisen Mahjong MJ 3 | Sega | GDROM | GDX-0017 | 317-0414-JPN | | | 2005 | Sega Network Taisen Mahjong MJ 3 (Rev A) | Sega | GDROM | GDX-0017A | 317-0414-JPN | | | 2005 | Sega Network Taisen Mahjong MJ 3 (Rev B) | Sega | GDROM | GDX-0017B | 317-0414-JPN | |*| 20051109 | Sega Network Taisen Mahjong MJ 3 (Rev C) | Sega | GDROM | GDX-0017C | 317-0414-JPN | |*| 20060217 | Sega Network Taisen Mahjong MJ 3 (Rev D) | Sega | GDROM | GDX-0017D | 317-0414-JPN | | | 2006 | Sega Network Taisen Mahjong MJ 3 (Rev E) | Sega | GDROM | GDX-0017E | 317-0414-JPN | |*| 2006 | Sega Network Taisen Mahjong MJ 3 (Rev F) | Sega | GDROM | GDX-0017F | 317-0414-JPN | | | 2005 | Sega Club Golf 2006: Next Tours | Sega | GDROM | GDX-0018 | | |*| 20051107 | Sega Club Golf 2006: Next Tours (Rev A) | Sega | GDROM | GDX-0018A | 317-0428-JPN | | | 2005 | Firmware Update For MJ 3 | Sega | GDROM | GDX-0019 | | | | 200? | Sega Club Golf 2006 | Sega | GDROM | GDX-0020 | | | | 2006 | Sega Network Taisen Mahjong MJ 3 Evolution | Sega | GDROM | GDX-0021 | 317-0457-JPN | |*| 20070217 | Sega Network Taisen Mahjong MJ 3 Evolution (Rev A) | Sega | GDROM | GDX-0021A | 317-0457-JPN | |*| 20070525 | Sega Network Taisen Mahjong MJ 3 Evolution (Rev B) | Sega | GDROM | GDX-0021B | 317-0457-JPN | | | 200? | Sega Network Taisen Mahjong MJ 3 Evo Test Ver | Sega | GDROM | GDX-0022 | | |*| 20061222 | Sega Network Taisen Mahjong MJ 3 Evo Firmware Update | Sega | GDROM | GDX-0023 | 317-0457-JPN | | | 2009 | Firmware Update For Compact Flash Box | Sega | GDROM | GDX-0024 | | |*| 20090331 | Firmware Update For Compact Flash Box (Rev A) | Sega | GDROM | GDX-0024A | 317-0567-EXP | |*| 20030226 | Chihiro Change Region GD USA | Sega | GDROM | 611-0028A | 317-0351-EXP | |*| 200412 | Quest Of D Ver.1.01C | Sega | CDROM | CDV-10005C | 317-0376-JPN | |*| 2005 | Sangokushi Taisen Ver.1.002 | Sega | DVDROM | CDV-10009D | | |*| 2005 | Mobile Suit Gundam 0079 Card Builder | Banpresto | DVDROM | CDV-10010 | 317-0415-JPN | |*| 2006 | Sangokushi Taisen 2 Ver.2.007 | Sega | DVDROM | CDV-10019A | | |*| 2005 | Sangokushi Taisen | Sega | DVDROM | CDV-10022 | | |*| 2006 | Sangokushi Taisen 2 Firmware Update | Sega | DVDROM | CDV-10023 | | |*| 2006 | Mobile Suit Gundam 0079 Card Builder Ver.2.02 | Banpresto | DVDROM | CDV-10024B | 317-0415-JPN | |*| 2006 | Sangokushi Taisen 2 Ver.2.100 | Sega | DVDROM | CDV-10029 | | |*| 2007 | Mobile Suit Gundam 0083 Card Builder | Banpresto | DVDROM | CDV-10030 | 317-0484-JPN | |*| 2008 | Sangokushi Taisen 3 | Sega | DVDROM | CDV-10036 | | |*| 2008 | Sangokushi Taisen 3 Ver.J | Sega | DVDROM | CDV-10036J | | |*| 2008 | Mobile Suit Gundam 0083 Card Builder Ver.2.10 | Bandai Namco - Banpresto | DVDROM | CDV-10037B | 317-0484-JPN | |*| 2008 | Sangokushi Taisen 3 War Begins Ver.3.59 | Sega | DVDROM | CDV-10041 | | |*| 2008 | Sangokushi Taisen 3 War Begins | Sega | DVDROM | CDV-10042 | | +-+----------+------------------------------------------------------+--------------------------+--------+------------+--------------+ * denotes these games are archived. Year Game (Unknown media) Manufacturer Number +-+-----------------------------------------------------------+------------+------------+ | | 2004 | Quest Of D | Sega | CDV-10005 | | | 2004 | Quest Of D | Sega | CDV-10005A | | | 2004 | Quest Of D | Sega | CDV-10005B | | | 2004 | Quest Of D 1.01D | Sega | CDV-10005D | | | 2004 | Quest Of D 1.02 | Sega | CDV-10005E | | | 2004 | Quest Of D Senko Habai | Sega | CDV-10005P | | | 2004 | Quest Of D 1.10 | Sega | CDV-10006 | | | 2004 | Quest Of D 1.10A | Sega | CDV-10006A | | | 200? | Sangokushi Taisen | Sega | CDV-10009 | | | 200? | Sangokushi Taisen 0.94 | Sega | CDV-10009A | | | 200? | Sangokushi Taisen 1.00 | Sega | CDV-10009B | | | 200? | Sangokushi Taisen 1.001 | Sega | CDV-10009C | | | 200? | Sangokushi Taisen 1.002 | Sega | CDV-10009E | | | 200? | Sangokushi Taisen 1.003 | Sega | CDV-10009F | | | 200? | Sangokushi Taisen 1.003 | Sega | CDV-10009G | | | 200? | Sangokushi Taisen 1.100 | Sega | CDV-10009H | | | 200? | Sangokushi Taisen 1.003 | Sega | CDV-10009J | | | 200? | Sangokushi Taisen 1.100 | Sega | CDV-10009K | | | 200? | Sangokushi Taisen 1.110 | Sega | CDV-10009L | | | 200? | Sangokushi Taisen 1.120 | Sega | CDV-10009M | | | 200? | Sangokushi Taisen 1.120 | Sega | CDV-10009N | | | 200? | Sangokushi Taisen 1.100 (kakinhenkou) | Sega | CDV-10009P | | | 200? | Sangokushi Taisen 1.121 | Sega | CDV-10009Q | | | 200? | Sangokushi Taisen 1.122 | Sega | CDV-10009R | | | 200? | Mobile Suit Gundam 0079 Card Builder | Banpresto | CDV-10010A | | | 200? | Quest Of D 1.20 | Sega | CDV-10012 | | | 200? | Quest Of D 1.20A | Sega | CDV-10012A | | | 200? | Sangokushi Taisen 1.00 (Asia) | Sega | CDV-10014 | | | 200? | Sangokushi Taisen (Asia) | Sega | CDV-10014B | | | 200? | Sangokushi Taisen (Asia) | Sega | CDV-10014C | | | 200? | Quest Of D 1.21 | Sega | CDV-10016 | | | 200? | Quest Of D: Gofu no Keisyousya 2.00 | Sega | CDV-10017 | | | 200? | Quest Of D: Gofu no Keisyousya 2.01 | Sega | CDV-10017A | | | 200? | Quest Of D: Gofu no Keisyousya 2.02 | Sega | CDV-10017B | | | 200? | Quest Of D: Gofu no Keisyousya 2.02B | Sega | CDV-10017C | | | 200? | Quest Of D: Gofu no Keisyousya 2.02C | Sega | CDV-10017D | | | 200? | Sangokushi Taisen 2 | Sega | CDV-10019 | | | 200? | Sangokushi Taisen 2 2.010 | Sega | CDV-10019B | | | 200? | Mobile Suit Gundam 0079 Card Builder 2.00 | Banpresto | CDV-10024 | | | 200? | Mobile Suit Gundam 0079 Card Builder 2.00 | Banpresto | CDV-10024A | | | 200? | Quest Of D: Oukoku no Syugosya 3.00 | Sega | CDV-10026 | | | 200? | Quest Of D: Oukoku no Syugosya 3.01 | Sega | CDV-10026A | | | 200? | Quest Of D: Oukoku no Syugosya 3.01A | Sega | CDV-10026B | | | 200? | Quest Of D: Oukoku no Syugosya 3.01B | Sega | CDV-10026C | | | 200? | Quest Of D: Oukoku no Syugosya 3.02 | Sega | CDV-10026D | | | 200? | Sangokushi Taisen 2 | Sega | CDV-10029A | | | 200? | Mobile Suit Gundam 0083 Card Builder | Banpresto | CDV-10030A | | | 200? | Sangokushi Taisen 2 (Asia) | Sega | CDV-10032 | | | 200? | Sangokushi Taisen 2 (Asia) | Sega | CDV-10032A | | | 200? | Sangokushi Taisen 2 (Asia) Check disc | Sega | CDV-10033 | | | 200? | Sangokushi Taisen 2 (Asia) Firmware update | Sega | CDV-10034 | | | 200? | Quest Of D: The Battle Kingdom | Sega | CDV-10035 | | | 200? | Quest Of D: The Battle Kingdom | Sega | CDV-10035A | | | 200? | Quest Of D: The Battle Kingdom | Sega | CDV-10035C | | | 200? | Sangokushi Taisen 3 | Sega | CDV-10036A | | | 200? | Sangokushi Taisen 3 | Sega | CDV-10036B | | | 200? | Sangokushi Taisen 3 | Sega | CDV-10036D | | | 200? | Sangokushi Taisen 3 | Sega | CDV-10036G | | | 200? | Sangokushi Taisen 3 | Sega | CDV-10036H | | | 200? | Sangokushi Taisen 3 | Sega | CDV-10036K | | | 200? | Mobile Suit Gundam 0083 Card Builder 2.00 | Banpresto | CDV-10037 | | | 200? | Mobile Suit Gundam 0083 Card Builder 2.02 | Banpresto | CDV-10037A | | | 200? | Sangokushi Taisen 2 (Export) | Sega | CDV-10038 | | | 200? | Sangokushi Taisen 2 (Export) | Sega | CDV-10038A | | | 200? | Sangokushi Taisen 2 (Export) | Sega | CDV-10038B | | | 200? | Sega Golf Club Network Pro Tour 2005 (DVD NMC TJP) | Sega | CDV-10039 | | | 200? | Sangokushi Taisen 3 (Export) | Sega | CDV-10040 | | | 200? | Sangokushi Taisen 3 (Export) | Sega | CDV-10040A | +-+------+----------------------------------------------------+------------+------------+ A Chihiro system consists of several boards. The system is in 2 separate metal boxes that fit together to form one box. In order from top to bottom they are.... - Network board \ - Media board / Together in the top box - Base board \ - Xbox board / Together in the bottom box The 2 boxes join together via the Base Board upper connector and Media Board lower connector. The Microsoft-manufactured XBox board is the lowest board. It's mostly the same as the V1 XBox retail board with the exception that it has 128MB of RAM and a NVidia MCPX X2 chip. The retail XBox board has a MCPX X3 chip. The board was probably released to Sega very early in development and the chip was updated in the mass-produced retail version. The Sega-manufactured base board is connected to the XBox board via a 40 pin 80-wire flat cable and a 16 pin 16-wire flat cable connects to the LPC header, plus a couple of thin multi-wire cables which join to the XBox game controller ports (USB1.1) and front panel connector. On the reverse side of that board are the power output connectors going to the XBox board and a 100 pin connector where the media board plugs in. A CR2032 coin battery is also located there and next to it are 6 jumpers.... JP3S 2-3 \ JP4S 1-2 | JP5S 1-2 | JP6S 2-3 | These are connected to the USB chip on the other side of this board JP7S 1-2 | JP8S 2-3 / A long connector on one edge connects to the filter board (power supply input etc) and on another edge are connectors for VGA output, audio/video input (from a short cable coming from the A/V connector on the XBox board) and a 14 pin connector which is unused. The base board handles JVS and video output. The upper part contains a Sega-manufactured media board with a TSOP48 flash ROM containing an xbox .xbe loader (this is the Chihiro logo you see when you power the Chihiro) and there's a connector for a Sega network board. The network board is 100% the same as the one in the Triforce v3 with the same firmware also. The system requires one of the various Sega JVS I/O boards to operate. ROMs on the boards ------------------ Network Board : One ST 29W160ET 2M x8-bit TSOP48 Flash ROM stamped 'FPR24036' at location IC2 Media Board : One ST 29W160ET 2M x8-bit TSOP48 Flash ROM stamped 'FPR24042' at location IC8 As in Triforce, it consists of two versions in the same flash, the first MB of the flash has an older version as backup, and the second MB has the current version, versions included are: SegaBoot Ver.2.00.0 Build:Feb 7 2003 12:28:30 SegaBoot Ver.2.13.0 Build:Mar 3 2005 17:03:15 Base Board : Two Microchip 24LC64 64k Serial EEPROMs at locations IC32 and IC10 One Microchip 24LC24 2k Serial EEPROM at location IC11 The chip at IC32 seems to be a backup of the base board firmware without region or serial. The chip at IC11 has an unknown purpose. It contains some strings. The interesting thing is that it contains the string SBJE. If you go to the system info menu and press the service button 16 times in a row a message will be displayed: GAME ID SBJE The chip at IC10 contains the firmware of the Base Board, serial number and REGION of the whole system. The region is located at offset 0x00001F10. 01 is JAPAN, 02 is USA, 03 is EXPORT. If you want to change the region of your Chihiro unit just change this byte. Alternatively, if you have a netboot PIC, plug that in and power up with it. 1) Enter the test menu (push the test button) 2) Go to the System Information menu. 3) Press the Service button 30 times in a row and a hidden menu will appear to change the region. 4) Once the region is changed, exit from the menus and after the Chihiro reboots, power off the system and power on again. Xbox Board : One Macronix 29F040TC-90 512k x8-bit TSOP32 Flash ROM at location U7D1 Board Layouts ============= XBox Board ---------- |--------------------------------------------| | LAN FAN1 A/V FAN2| | | | LF353 CONEXANT | |DVD_PWR WM9709 XC25871-14 | | | | ICS_UA431317 |-------------------| | LM358 | | 27MHz PIC16LC63A | |IDE BR24C02 | | ICS_455R-02 | | K4D263238D | | 29F040.U7D1 *K4D263238D | | | | GPU CPU @733MHz | | 16_PIN_CONN (WITH FAN) (SL5SN 733/128)| | K4D263238D | | *K4D263238D | | | | | | K4D263238D K4D263238D | | *K4D263238D *K4D263238D | | NVIDIA | | MCPX X2 | | POWER_CONN | | | | | | | | GAME1/2 FRONT_PANEL GAME3/4 | |----------------------------------------------------------------| Notes: * These parts located on the other side of the PCB Some of the connectors are not used. GAME1/2 - Connected to CN1 on Base Board. JST Part Number B12B-PHDSS GAME3/4 - Connected to CN1 on Base Board. JST Part Number B12B-PHDSS FRONT_PANEL - Connected to CN1 on Base Board. JST Part Number B10B-PHDSS Base Board ---------- 171-8204B 837-14280 SEGA 2002 Sticker: 837-14280-92 |----------------------------------------------------------------| |*CN16S *CN14S *CN19S ADM3222 | | CN8| | 24LC64.IC32 | |CN11 CN18 CN1 PC410 | | LM1881 | | SN65240 | | SN65240 AN2131SC BA7623 | | CN10| | 12MHz BA7623 | | *CR2032 | | SUPERCAP | | 32.768kHz | |CN12 RV5C386A | | 24LC024.IC11 M68AF127 CN9| | 24LC64.IC10 AN2131QC | | ADM3222 DS485 | | 1.85MHz | | 3771 CN5| |-------------------------| CN15 |-----------------| |--------------------| Notes: (* these parts on other side of the PCB) RV5C386A - I2C Bus Serial Interface Real-Time Clock IC with Voltage Monitoring Function (SSOP10) 24LC64 - Microchip 24LC64 64K I2C Serial EEPROM (SOIC8) contains firmware for AN2131 chips 24LC024 - Microchip 24LC024 2K I2C Serial EEPROM (SOIC8) contain system/game configuration data M68AF127B - ST Microelectronics 1Mbit (128K x8), 5V Asynchronous SRAM (SOP32) work ram for AN2131QC AN2131QC - Cypress AN2131 EZ-USB-Family 8051-based High-Speed USB IC's (QFP80) firmware in IC10 AN2131SC / (QFP44) firmware in IC32 ADM3222 - Analog Devices ADM3222 High-Speed, +3.3V, 2-Channel RS232/V.28 Interface Device (SOIC20) SN65240 - Texas Instruments SN65240 USB Port Transient Suppressor (SOIC8) BA7623 - Rohm BA7623 75-Ohm driver IC with 3 internal circuits (SOIC8) LM1881 - National LM1881 Video Sync Separator (SOIC8) DS485 - National DS485 Low-Power RS-485/RS-422 Multipoint Transceiver (SOIC8) 3771 - Fujitsu MB3771 System Reset IC (SOIC8) PC410 - Sharp PC410 Ultra-high Speed Response OPIC Photocoupler CN1 - 22-pin multi-wire cable connector joining to XBox board (JST B22B-PHTSS) CN5 - USB connector joining to JVS I/O board with standard USB cable CN8 - A/V input connector (from XBox board via short A/V cable) CN9 - VGA output connector CN10 - 14 pin connector (purpose unknown, maybe another video connector) CN11 - 16-pin flat cable connector joining to LPC connector on XBox board CN12 - 40-pin IDE flat cable connector joining to IDE connector on XBox board CN14S - 7-pin power output connector joining to XBox board CN15 - 96-pin connector joining to filter board CN16S - 2-pin connector joining to case fan on Chihiro lower section (next to XBox PCB) CN18 - 10-pin multi-wire cable connector joining to XBox board CN19S - 5-pin power output connector joining to XBox board There are also many power-related components such as capacitors, mosfets and transistors. Network Board ------------- This board is identical to the network board used in Triforce games. See src/mame/drivers/triforce.c Media Board ----------- 171-8234C 837-14359-01 SEGA 2002 Sticker: 837-14359-91 |----------------------------------------------------------------| | LED LED | | FLASH.IC8 | | LED CN12 CN11 | | LED JP4-JP10 CN10| | | | | | |----------| | | |SEGA | | | CN14S* |315-6355 | | | | | | | | | | | MB3800* |----------| CN8| | CY25560* | | | | CY23S09SC 49.25MHz | | | | CN4 (DIMM) | | CN3 (DIMM) CN5| | MM1433* | | CN13 TPC8009 CN9 CN6 | |----------------------------------------------------------------| Notes: * - These parts on other side of PCB CN3/4 - 72 pin DIMM sockets CN5 - GDROM data cable connector (SCSI mini-honda connection but signal/protocol is IDE) CN6 - 40 pin flat cable connector (unused) CN8 - 6 pin GDROM power connector CN9 - 6 pin power connector (unused) CN10 - Connector for small 90-degrees upright board where PIC plugs in. The upright board contains only a DIP18 socket and a 4MHz OSC. CN11/12 - Network board connectors joining to Sega Network PCB CN13 - Battery connector (maintains power to DIMM RAM) CN14S - 100 pin connector joining to base board JP4-10 - Jumpers. Settings are as follows (taken from Wangan Midnight Maximum Tune 2 (Japan, Rev A)) JP4 2-3 JP5 2-3. Sets DIMM RAM size. 1-2 = 1GB (2x 512M sticks), 2-3 = 512MB (1x 512M stick) JP6 1-2 JP7 2-3 JP8 2-3 JP9 1-2 JP10 1-2 FLASH.IC8 - ST M29W160 16MBit Flash ROM stamped 'FPR24042' (TSOP48) Filter Board ------------ 839-1208-02 171-8205C SEGA 2002 |----------------------------------------------------------------| | SP-DIF LED_STATUS2 LED_STATUS1 CN3 | | | | DIN1 LED_3.3V | | LED_5V | | DIPSW(8) LED_12V | |CN6 CN5 CN4 SW2 SW1 CN2 CN1 | |----------------------------------------------------------------| Notes: CN1 - 8-pin JVS power input connector CN2 - 6-pin JVS power input connector CN3 - Red/white RCA unamplified stereo audio output jacks CN4 - 11-pin connector, has signals for 2 usb ports connected to the xbox board CN5 - 8-pin connector, has signals for 2 rs232 ports CN6 - 7-pin connector SW1/2 - test/service buttons DIN1 - 96-pin connector joining to Base Board DIPSW - 8-position DIP switch. On this game (Wangan Midnight Maximum Tune 2 (Japan, Rev A)) DIPs 3, 4, 6, 7 & 8 are set ON. The others are OFF. Dump info: Network Board Dump : Ver1305.bin Media Board dump : FPR21042_M29W160ET.bin Base Board Dumps : ic10_g24lc64.bin ic11_24lc024.bin pc20_g24lc64.bin Xbox Board Dump : chihiro_xbox_bios.bin FPR21042_M29W160ET.bin : As in Triforce, it consists of two versions in the same flash, the first MB of the flash has an older version as backup, and the second MB has the current version, versions included are: SegaBoot Ver.2.00.0 Build:Feb 7 2003 12:28:30 SegaBoot Ver.2.13.0 Build:Mar 3 2005 17:03:15 ic10_g24lc64.bin: This dump contains the firmware of the Base Board, serial number and REGION of the whole system Region is located at Offset 0x00001F10 , 01 means JPN, 02 Means USA, 03 Means EXPORT, if you want to change the region of your Chihiro Board, just change this byte. Thanks to Alex, Mr Mudkips, and Philip Burke for this info. */ #include "emu.h" #include "machine/pci.h" #include "machine/idectrl.h" #include "includes/xbox_pci.h" #include "includes/xbox.h" #include "bus/ata/idehd.h" #include "cpu/i386/i386.h" #include "machine/jvs13551.h" #include "machine/jvshost.h" #include "machine/naomigd.h" #include "debug/debugcmd.h" #include "debug/debugcon.h" #include "debugger.h" #include #define LOG_PCI //#define LOG_BASEBOARD //#define VERBOSE_MSG /* * Class declaration for jvs_master */ DECLARE_DEVICE_TYPE(JVS_MASTER, jvs_master) class jvs_master : public jvs_host { public: // construction/destruction jvs_master(const machine_config &mconfig, const char *tag, device_t *owner, uint32_t clock); int get_sense_line(); void send_packet(int destination, int length, uint8_t *data); int received_packet(uint8_t *buffer); }; DEFINE_DEVICE_TYPE(JVS_MASTER, jvs_master, "jvs_master", "JVS MASTER") jvs_master::jvs_master(const machine_config &mconfig, const char *tag, device_t *owner, uint32_t clock) : jvs_host(mconfig, JVS_MASTER, tag, owner, clock) { } int jvs_master::get_sense_line() { if (get_presence_line() == false) return 50; if (get_address_set_line() == true) return 0; return 25; } void jvs_master::send_packet(int destination, int length, uint8_t *data) { push((uint8_t)destination); push((uint8_t)length); length--; while (length > 0) { push(*data); data++; length--; } commit_raw(); } int jvs_master::received_packet(uint8_t *buffer) { uint32_t length; const uint8_t *data; get_raw_reply(data, length); if (length > 0) memcpy(buffer, data, length); return (int)length; } /* * Class declaration for ohci_hlean2131qc_device */ DECLARE_DEVICE_TYPE(OHCI_HLEAN2131QC, ohci_hlean2131qc_device) class ohci_hlean2131qc_device : public device_t, public device_usb_ohci_function_interface { public: ohci_hlean2131qc_device(const machine_config &mconfig, const char *tag, device_t *owner, uint32_t clock); void initialize() override; int handle_nonstandard_request(int endpoint, USBSetupPacket *setup) override; int handle_bulk_pid(int endpoint, int pid, uint8_t *buffer, int size) override; void set_region_base(uint8_t *data); void set_region(const char *_region_tag, int _region_offset); protected: virtual void device_start() override; private: void process_jvs_packet(); static const USBStandardDeviceDescriptor devdesc; static const USBStandardConfigurationDescriptor condesc; static const USBStandardInterfaceDescriptor intdesc; static const USBStandardEndpointDescriptor enddesc01; static const USBStandardEndpointDescriptor enddesc02; static const USBStandardEndpointDescriptor enddesc03; static const USBStandardEndpointDescriptor enddesc04; static const USBStandardEndpointDescriptor enddesc05; static const USBStandardEndpointDescriptor enddesc81; static const USBStandardEndpointDescriptor enddesc82; static const USBStandardEndpointDescriptor enddesc83; static const USBStandardEndpointDescriptor enddesc84; static const USBStandardEndpointDescriptor enddesc85; static const uint8_t strdesc0[]; static const uint8_t strdesc1[]; static const uint8_t strdesc2[]; int maximum_send; const char *region_tag; int region_offset; uint8_t *region; struct { uint8_t buffer_in[32768]; int buffer_in_expected; uint8_t buffer_out[32768]; int buffer_out_used; int buffer_out_packets; } jvs; required_device m_jvs_master; }; DEFINE_DEVICE_TYPE(OHCI_HLEAN2131QC, ohci_hlean2131qc_device, "ohci_hlean2131qc", "OHCI an2131qc HLE") #define MCFG_OHCI_HLEAN2131QC_REGION(_region_tag, _region_offset) \ downcast(device)->set_region(_region_tag, _region_offset); /* * Class declaration for ohci_hlean2131sc_device */ DECLARE_DEVICE_TYPE(OHCI_HLEAN2131SC, ohci_hlean2131sc_device) class ohci_hlean2131sc_device : public device_t, public device_usb_ohci_function_interface { public: ohci_hlean2131sc_device(const machine_config &mconfig, const char *tag, device_t *owner, uint32_t clock); void initialize() override; int handle_nonstandard_request(int endpoint, USBSetupPacket *setup) override; int handle_bulk_pid(int endpoint, int pid, uint8_t *buffer, int size) override; void set_region_base(uint8_t *data); void set_region(const char *_region_tag, int _region_offset); protected: virtual void device_start() override; private: void process_packet(); static const USBStandardDeviceDescriptor devdesc; static const USBStandardConfigurationDescriptor condesc; static const USBStandardInterfaceDescriptor intdesc; static const USBStandardEndpointDescriptor enddesc01; static const USBStandardEndpointDescriptor enddesc02; static const USBStandardEndpointDescriptor enddesc03; static const USBStandardEndpointDescriptor enddesc81; static const USBStandardEndpointDescriptor enddesc82; static const USBStandardEndpointDescriptor enddesc83; static const uint8_t strdesc0[]; static const uint8_t strdesc1[]; static const uint8_t strdesc2[]; const char *region_tag; int region_offset; uint8_t *region; uint8_t midi_rs232; uint8_t response[256]; uint8_t packet[4]; int response_size; int step; }; DEFINE_DEVICE_TYPE(OHCI_HLEAN2131SC, ohci_hlean2131sc_device, "ohci_hlean2131sc", "OHCI an2131sc HLE") #define MCFG_OHCI_HLEAN2131SC_REGION(_region_tag, _region_offset) \ downcast(device)->set_region(_region_tag, _region_offset); /* * Class declaration for chihiro_state */ class chihiro_state : public xbox_base_state { friend class ide_baseboard_device; public: chihiro_state(const machine_config &mconfig, device_type type, const char *tag) : xbox_base_state(mconfig, type, tag) , m_ide(*this, "ide1") , m_dimmboard(*this, "rom_board") , m_hack_index(-1) , m_hack_counter(0) , m_dimm_board_memory(nullptr) , m_dimm_board_memory_size(0) { } void chihirogd(machine_config &config); void chihiro_base(machine_config &config); private: uint32_t mediaboard_r(offs_t offset, uint32_t mem_mask = ~0); void mediaboard_w(offs_t offset, uint32_t data, uint32_t mem_mask = ~0); virtual void machine_start() override; void baseboard_ide_event(int type, uint8_t *read, uint8_t *write); uint8_t *baseboard_ide_dimmboard(uint32_t lba); void dword_write_le(uint8_t *addr, uint32_t d); void word_write_le(uint8_t *addr, uint16_t d); virtual void hack_eeprom() override; virtual void hack_usb() override; // devices optional_device m_ide; optional_device m_dimmboard; int m_hack_index; int m_hack_counter; uint8_t *m_dimm_board_memory; uint32_t m_dimm_board_memory_size; static void an2131qc_configuration(device_t *device); static void an2131sc_configuration(device_t *device); void chihiro_map(address_map &map); void chihiro_map_io(address_map &map); void jamtable_disasm(address_space &space, uint32_t address, uint32_t size); void jamtable_disasm_command(int ref, const std::vector ¶ms); void chihiro_help_command(int ref, const std::vector ¶ms); void debug_commands(int ref, const std::vector ¶ms); }; /* jamtable instructions for Chihiro (different from Xbox console) St. Instr. Comment 0x01 POKEPCI PCICONF[OP2] := OP1 0x02 OUTB PORT[OP2] := OP1 0x03 POKE MEM[OP2] := OP1 0x04 BNE IF ACC <> OP2 THEN PC := PC + OP1 0x05 PEEKPCI ACC := PCICONF[OP2] 0x06 AND/OR ACC := (ACC & OP2) | OP1 0x07 BRA PC := PC + OP1 0x08 INB ACC := PORT[OP2] 0x09 PEEK ACC := MEM[OP2] 0xE1 (prefix) execute the instruction code in OP2 with OP2 := OP1, OP1 := ACC 0xEE END */ /* jamtable disassembler */ void chihiro_state::jamtable_disasm(address_space &space, uint32_t address, uint32_t size) // 0xff000080 == fff00080 { debugger_console &con = machine().debugger().console(); offs_t addr = (offs_t)address; if (!space.device().memory().translate(space.spacenum(), TRANSLATE_READ_DEBUG, addr)) { con.printf("Address is unmapped.\n"); return; } while (1) { offs_t base = addr; uint32_t opcode = space.read_byte(addr); addr++; uint32_t op1 = space.read_dword_unaligned(addr); addr += 4; uint32_t op2 = space.read_dword_unaligned(addr); addr += 4; char sop1[16]; char sop2[16]; char pcrel[16]; if (opcode == 0xe1) { opcode = op2 & 255; op2 = op1; //op1=edi; sprintf(sop2, "%08X", op2); sprintf(sop1, "ACC"); sprintf(pcrel, "PC+ACC"); } else { sprintf(sop2, "%08X", op2); sprintf(sop1, "%08X", op1); sprintf(pcrel, "%08X", base + 9 + op1); } con.printf("%08X ", base); // dl=instr ebx=par1 eax=par2 switch (opcode) { case 0x01: // if ((op2 & 0xff) == 0x880) op1=op1 & 0xfffffffd // out cf8,op2 // out cfc,op1 // out cf8,0 // cf8 (CONFIG_ADDRESS) format: // 31 30 24 23 16 15 11 10 8 7 2 1 0 // +-+----------+------------+---------------+-----------------+-----------------+-+-+ // | | Reserved | Bus Number | Device Number | Function Number | Register Number |0|0| // +-+----------+------------+---------------+-----------------+-----------------+-+-+ // 31 - Enable bit con.printf("POKEPCI PCICONF[%s]=%s\n", sop2, sop1); break; case 0x02: con.printf("OUTB PORT[%s]=%s\n", sop2, sop1); break; case 0x03: con.printf("POKE MEM[%s]=%s\n", sop2, sop1); break; case 0x04: con.printf("BNE IF ACC != %s THEN PC=%s\n", sop2, pcrel); break; case 0x05: // out cf8,op2 // in acc,cfc con.printf("PEEKPCI ACC=PCICONF[%s]\n", sop2); break; case 0x06: con.printf("AND/OR ACC=(ACC & %s) | %s\n", sop2, sop1); break; case 0x07: con.printf("BRA PC=%s\n", pcrel); break; case 0x08: con.printf("INB ACC=PORT[%s]\n", sop2); break; case 0x09: con.printf("PEEK ACC=MEM[%s]\n", sop2); break; case 0xee: con.printf("END\n"); break; default: con.printf("NOP ????\n"); break; } if (opcode == 0xee) break; if (size <= 9) break; size -= 9; } } void chihiro_state::jamtable_disasm_command(int ref, const std::vector ¶ms) { address_space &space = m_maincpu->space(); uint64_t addr, size; if (params.size() < 3) return; if (!machine().debugger().commands().validate_number_parameter(params[1], addr)) return; if (!machine().debugger().commands().validate_number_parameter(params[2], size)) return; jamtable_disasm(space, (uint32_t)addr, (uint32_t)size); } void chihiro_state::chihiro_help_command(int ref, const std::vector ¶ms) { debugger_console &con = machine().debugger().console(); con.printf("Available Chihiro commands:\n"); con.printf(" chihiro jamdis,, -- Disassemble bytes of JamTable instructions starting at \n"); con.printf(" chihiro help -- this list\n"); } void chihiro_state::debug_commands(int ref, const std::vector ¶ms) { if (params.size() < 1) return; if (params[0] == "jamdis") jamtable_disasm_command(ref, params); else chihiro_help_command(ref, params); } void chihiro_state::hack_eeprom() { // 8003b744,3b744=0x90 0x90 m_maincpu->space(AS_PROGRAM).write_byte(0x3b744, 0x90); m_maincpu->space(AS_PROGRAM).write_byte(0x3b745, 0x90); m_maincpu->space(AS_PROGRAM).write_byte(0x3b766, 0xc9); m_maincpu->space(AS_PROGRAM).write_byte(0x3b767, 0xc3); } #define HACK_ITEMS 5 static const struct { const char *game_name; struct { uint32_t address; uint8_t write_byte; } modify[16]; } hacks[HACK_ITEMS] = { { "chihiro", { { 0, 0 } } }, { "outr2", { { 0, 0 } } }, { "crtaxihr", { { 0x14ada5/*11fda5*/, 0x90 }, { 0x14ada6/*11fda6*/, 0x90 }, { 0, 0 } } }, { "ghostsqu", { { 0x78833/*4d833*/, 0x90 }, { 0x78834/*4d834*/, 0x90 }, { 0, 0 } } }, { "vcop3", { { 0x61a23/*36a23*/, 0x90 }, { 0x61a24/*36a24*/, 0x90 }, { 0, 0 } } }, }; void chihiro_state::hack_usb() { int p; if (m_hack_counter == 1) p = m_hack_index; // need to patch the game else p = -1; if (p >= 0) { for (int a = 0; a < 16; a++) { if (hacks[p].modify[a].address == 0) break; m_maincpu->space(0).write_byte(hacks[p].modify[a].address, hacks[p].modify[a].write_byte); } } m_hack_counter++; } //************************************************************************** // BASE BOARD USB //************************************************************************** //ic10 const USBStandardDeviceDescriptor ohci_hlean2131qc_device::devdesc = { 0x12,0x01,0x0100,0x60,0x00,0x00,0x40,0x0CA3,0x0002,0x0108,0x01,0x02,0x00,0x01 }; // class 0x60 subclass 0x00 const USBStandardConfigurationDescriptor ohci_hlean2131qc_device::condesc = { 0x09,0x02,0x0058,0x01,0x01,0x00,0x80,0x96 }; const USBStandardInterfaceDescriptor ohci_hlean2131qc_device::intdesc = { 0x09,0x04,0x00,0x00,0x0A,0xFF,0x00,0x00,0x00 }; const USBStandardEndpointDescriptor ohci_hlean2131qc_device::enddesc01 = { 0x07,0x05,0x01,0x02,0x0040,0x00 }; const USBStandardEndpointDescriptor ohci_hlean2131qc_device::enddesc02 = { 0x07,0x05,0x02,0x02,0x0040,0x00 }; const USBStandardEndpointDescriptor ohci_hlean2131qc_device::enddesc03 = { 0x07,0x05,0x03,0x02,0x0040,0x00 }; const USBStandardEndpointDescriptor ohci_hlean2131qc_device::enddesc04 = { 0x07,0x05,0x04,0x02,0x0040,0x00 }; const USBStandardEndpointDescriptor ohci_hlean2131qc_device::enddesc05 = { 0x07,0x05,0x05,0x02,0x0040,0x00 }; const USBStandardEndpointDescriptor ohci_hlean2131qc_device::enddesc81 = { 0x07,0x05,0x81,0x02,0x0040,0x00 }; const USBStandardEndpointDescriptor ohci_hlean2131qc_device::enddesc82 = { 0x07,0x05,0x82,0x02,0x0040,0x00 }; const USBStandardEndpointDescriptor ohci_hlean2131qc_device::enddesc83 = { 0x07,0x05,0x83,0x02,0x0040,0x00 }; const USBStandardEndpointDescriptor ohci_hlean2131qc_device::enddesc84 = { 0x07,0x05,0x84,0x02,0x0040,0x00 }; const USBStandardEndpointDescriptor ohci_hlean2131qc_device::enddesc85 = { 0x07,0x05,0x85,0x02,0x0040,0x00 }; const uint8_t ohci_hlean2131qc_device::strdesc0[] = { 0x04,0x03,0x00,0x00 }; const uint8_t ohci_hlean2131qc_device::strdesc1[] = { 0x0A,0x03,0x53,0x00,0x45,0x00,0x47,0x00,0x41,0x00 }; const uint8_t ohci_hlean2131qc_device::strdesc2[] = { 0x0E,0x03,0x42,0x00,0x41,0x00,0x53,0x00,0x45,0x00,0x42,0x03,0xFF,0x0B }; ohci_hlean2131qc_device::ohci_hlean2131qc_device(const machine_config &mconfig, const char *tag, device_t *owner, uint32_t clock) : device_t(mconfig, OHCI_HLEAN2131QC, tag, owner, clock) , device_usb_ohci_function_interface(mconfig, *this) , m_jvs_master(*this, "^^^^jvs_master") { maximum_send = 0; region_tag = nullptr; region_offset = 0; region = nullptr; jvs.buffer_in_expected = 0; jvs.buffer_out_used = 0; jvs.buffer_out_packets = 0; } void ohci_hlean2131qc_device::initialize() { device_usb_ohci_function_interface::initialize(); add_device_descriptor(devdesc); add_configuration_descriptor(condesc); add_interface_descriptor(intdesc); // it is important to add the endpoints in the same order they are found in the device firmware add_endpoint_descriptor(enddesc01); add_endpoint_descriptor(enddesc02); add_endpoint_descriptor(enddesc03); add_endpoint_descriptor(enddesc04); add_endpoint_descriptor(enddesc05); add_endpoint_descriptor(enddesc81); add_endpoint_descriptor(enddesc82); add_endpoint_descriptor(enddesc83); add_endpoint_descriptor(enddesc84); add_endpoint_descriptor(enddesc85); add_string_descriptor(strdesc0); add_string_descriptor(strdesc1); add_string_descriptor(strdesc2); } void ohci_hlean2131qc_device::set_region_base(uint8_t *data) { region = data; } void ohci_hlean2131qc_device::set_region(const char *_region_tag, int _region_offset) { region_tag = _region_tag; region_offset = _region_offset; } int ohci_hlean2131qc_device::handle_nonstandard_request(int endpoint, USBSetupPacket *setup) { int sense; #ifdef VERBOSE_MSG printf("Control request to an2131qc: %x %x %x %x %x %x %x\n\r", endpoint, endpoints[endpoint].controldirection, setup->bmRequestType, setup->bRequest, setup->wValue, setup->wIndex, setup->wLength); #endif if (endpoint != 0) return -1; // default valuse for data stage for (int n = 0; n < setup->wLength; n++) endpoints[endpoint].buffer[n] = 0x50 ^ n; sense = m_jvs_master->get_sense_line(); if (sense == 25) sense = 3; else sense = 0; // need to check // PINSA register, bits 0-2 connected do dip switches 1-3 on filter board, bit 4 to dip switch 4, bit 5 to dip switch 5, bits 6-7 to buttons 1-2 on filter board // bits 4-1 value must be 10 xor 15, and bit 3 is ignored since its used as the CS pin of the chip endpoints[endpoint].buffer[1] = 0x4b; // PINSB register, bits 5-7 connected to 3 leds not mounted on pcb, bit 4 connected to re/de pins of max485, bits 2-3 used as uart pins, bits 0-1 give the status of the sense pin of the jvs connector // if bits 0-1 are 11, the not all the connected jvs devices have been assigned an address yet endpoints[endpoint].buffer[2] = 0x52 | sense; // OUTB register endpoints[endpoint].buffer[3] = 0x53; // bRequest is a command value if (setup->bRequest == 0x16) { // this command is used to read data from the first i2c serial eeprom connected to the chip // setup->wValue = start address to read from // setup->wIndex = number of bytes to read // data will be transferred to the host using endpoint 1 (IN) endpoints[1].remain = setup->wIndex & 255; endpoints[1].position = region + setup->wValue; // usually wValue is 0x1f00 endpoints[endpoint].buffer[0] = 0; } else if (setup->bRequest == 0x17) { // this command is used to read data from the second i2c serial eeprom connected to the chip // setup->wValue = start address to read from // setup->wIndex = number of bytes to read // data will be transferred to the host using endpoint 2 (IN) endpoints[2].remain = setup->wIndex & 255; endpoints[2].position = region + 0x2000 + setup->wValue; endpoints[endpoint].buffer[0] = 0; } else if (setup->bRequest == 0x18) { // this command is used to read data from external memory (with respect to the internal 8051 cpu) // setup->wValue = start address to read from // setup->wIndex = number of bytes to read // data will be transferred to the host using endpoint 3 (IN) endpoints[endpoint].buffer[0] = 0; } else if (setup->bRequest == 0x19) { // this command is used to retreive the jvs packets that have been received in response to the ones of 0x20 // data for the packets will be transferred to the host using endpoint 4 (IN) // the nuber of bytes to transfer is returned at bytes 4 and 5 in the data stage of this control transfer // data transferred starts with a byte with value 0, then a byte with value the number of packets received, then a block of bytes for each packet // the bytes for a packet start with the jvs node address of the sender, then a dummy one (must be 0), then a 16 bit number in little endian format that specifies how many bytes follow // the bytes that follow contain the body of the packet as received from the jvs bus, from the 0xa0 byte to the checksum endpoints[endpoint].buffer[0] = 0; // 0 if not busy endpoints[endpoint].buffer[5] = jvs.buffer_out_used >> 8; // amount to transfer with endpoint 4 endpoints[endpoint].buffer[4] = (jvs.buffer_out_used & 0xff); // the data to be sent is prepared in command 0x20 endpoints[4].remain = jvs.buffer_out_used; endpoints[4].position = jvs.buffer_out; jvs.buffer_out_used = 0; endpoints[endpoint].buffer[0] = 0; } else if (setup->bRequest == 0x1c) { // this command is used to read from the RV5C386A chip // setup->wValue = what to read // setup->wIndex = number of bytes to read // data will be transferred to the host using endpoint 5 (IN) endpoints[endpoint].buffer[0] = 0; } else if (setup->bRequest == 0x1d) { // this command is used to write data to the first i2c serial eeprom connected to the chip // no more than 32 bytes can be written at a time // setup->wValue = start address to write to // setup->wIndex = number of bytes to write // data will be transferred from the host using endpoint 1 (OUT) endpoints[endpoint].buffer[0] = 0; } else if (setup->bRequest == 0x1e) { // this command is used to write data to the second i2c serial eeprom connected to the chip // no more than 8 bytes can be written at a time // setup->wValue = start address to write to // setup->wIndex = number of bytes to write // data will be transferred from the host using endpoint 2 (OUT) endpoints[endpoint].buffer[0] = 0; } else if (setup->bRequest == 0x1f) { // this command is used to write data to external memory (with respect to the internal 8051 cpu) // setup->wValue = start address to write to // setup->wIndex = number of bytes to write // data will be transferred from the host using endpoint 3 (OUT) endpoints[endpoint].buffer[0] = 0; } else if (setup->bRequest == 0x20) { // this command is used to send a set of jvs packets, each to a different node // for each packet sent, the respective answer will be stored, and can be retrieved with 0x19 // setup->wIndex = number of bytes to be sent by the host // data for the packets will be transferred from the host using endpoint 4 (OUT) // data sent by the host contains first a byte with value 0 that is ignored, then a byte specifying the number of packets that follow, then the data for each packet // the data for each packet contains first a byte with value 0, then the sync byte (0xe0) then all the other bytes of the packet ending with the checksum byte // broadcast packets must have a destination node address of value 0xff #ifdef VERBOSE_MSG printf(" Jvs packets data of %d bytes\n\r", setup->wIndex); #endif endpoints[endpoint].buffer[0] = 0; if (jvs.buffer_out_used == 0) { jvs.buffer_out_packets = 0; jvs.buffer_out[0] = 0; jvs.buffer_out[1] = (uint8_t)jvs.buffer_out_packets; jvs.buffer_out_used = 2; } jvs.buffer_in_expected = setup->wIndex; endpoints[4].remain = jvs.buffer_in_expected; endpoints[4].position = jvs.buffer_in; } else if (setup->bRequest == 0x24) { // this command is used to write to the RV5C386A chip // no more than 0x20 bytes can be written // setup->wValue = what to read // data will be transferred from the host using endpoint 5 (OUT) endpoints[endpoint].buffer[0] = 0; } else if (setup->bRequest == 0x30) { // this command first disables external interrupt 0 if the lower 8 bits of setup->wValue are 0 // or enables it if those bits, seen as a signed 8 bit value, represent a number greater than 0 // then it will return in byte 4 of the data stage the value 0 if external interrupt 0 has been disabled or value 1 if it has been enabled // and in byte 5 the value of an 8 bit counter that is incremented at every external interrupt 0 endpoints[endpoint].buffer[0] = 0; if ((setup->wValue & 255) == 0) endpoints[endpoint].buffer[4] = 0; else if ((setup->wValue & 255) < 128) endpoints[endpoint].buffer[4] = 1; endpoints[endpoint].buffer[5] = 0; } else endpoints[endpoint].buffer[0] = 0x99; // usnupported command endpoints[endpoint].position = endpoints[endpoint].buffer; endpoints[endpoint].remain = setup->wLength; return 0; } int ohci_hlean2131qc_device::handle_bulk_pid(int endpoint, int pid, uint8_t *buffer, int size) { #ifdef VERBOSE_MSG printf("Bulk request to an2131qc: %x %d %x\n\r", endpoint, pid, size); #endif if (((endpoint == 1) || (endpoint == 2)) && (pid == InPid)) { if (size > endpoints[endpoint].remain) size = endpoints[endpoint].remain; memcpy(buffer, endpoints[endpoint].position, size); endpoints[endpoint].position = endpoints[endpoint].position + size; endpoints[endpoint].remain = endpoints[endpoint].remain - size; } if ((endpoint == 4) && (pid == InPid)) { if (size > endpoints[4].remain) size = endpoints[4].remain; memcpy(buffer, endpoints[4].position, size); endpoints[4].position = endpoints[4].position + size; endpoints[4].remain = endpoints[4].remain - size; } if ((endpoint == 4) && (pid == OutPid)) { if (size > endpoints[4].remain) size = endpoints[4].remain; #ifdef VERBOSE_MSG for (int n = 0; n < size; n++) printf(" %02x", buffer[n]); #endif if (size > 0) { memcpy(endpoints[4].position, buffer, size); endpoints[4].position = endpoints[4].position + size; endpoints[4].remain = endpoints[4].remain - size; if (endpoints[4].remain == 0) { #ifdef VERBOSE_MSG printf("\n\r"); #endif // extract packets process_jvs_packet(); } } } return size; } void ohci_hlean2131qc_device::process_jvs_packet() { int numpk = jvs.buffer_in[1]; int p = 2; for (int n = 0; n < numpk; n++) { p++; if (jvs.buffer_in[p] != 0xe0) break; p++; int dest = jvs.buffer_in[p]; p++; int len = jvs.buffer_in[p]; p++; if ((p + len) > jvs.buffer_in_expected) break; int chk = dest + len; for (int m = len - 1; m > 0; m--) chk = chk + (int)jvs.buffer_in[p + m - 1]; chk = chk & 255; if (chk != (int)jvs.buffer_in[p + len - 1]) { p = p + len; continue; } // use data of this packet m_jvs_master->send_packet(dest, len, jvs.buffer_in + p); // generate response if (dest == 0xff) dest = 0; int recv = m_jvs_master->received_packet(jvs.buffer_out + jvs.buffer_out_used + 5); // update buffer_out if (recv > 0) { chk = 0; for (int m = 0; m < recv; m++) chk = chk + jvs.buffer_out[jvs.buffer_out_used + 5 + m]; jvs.buffer_out[jvs.buffer_out_used + 5 + recv] = chk & 255; jvs.buffer_out_packets++; // jvs node address jvs.buffer_out[jvs.buffer_out_used] = (uint8_t)dest; // dummy jvs.buffer_out[jvs.buffer_out_used + 1] = 0; // length following recv += 2; jvs.buffer_out[jvs.buffer_out_used + 2] = recv & 255; jvs.buffer_out[jvs.buffer_out_used + 3] = (recv >> 8) & 255; // body jvs.buffer_out[jvs.buffer_out_used + 4] = 0xe0; jvs.buffer_out_used = jvs.buffer_out_used + recv + 5 - 1; jvs.buffer_out[1] = (uint8_t)jvs.buffer_out_packets; } p = p + len; } } void ohci_hlean2131qc_device::device_start() { initialize(); if (region_tag) set_region_base(memregion(region_tag)->base() + region_offset); } //pc20 const USBStandardDeviceDescriptor ohci_hlean2131sc_device::devdesc = { 0x12,0x01,0x0100,0x60,0x01,0x00,0x40,0x0CA3,0x0003,0x0110,0x01,0x02,0x00,0x01 }; // class 0x60 subclass 0x01 const USBStandardConfigurationDescriptor ohci_hlean2131sc_device::condesc = { 0x09,0x02,0x003C,0x01,0x01,0x00,0x80,0x96 }; const USBStandardInterfaceDescriptor ohci_hlean2131sc_device::intdesc = { 0x09,0x04,0x00,0x00,0x06,0xFF,0x00,0x00,0x00 }; const USBStandardEndpointDescriptor ohci_hlean2131sc_device::enddesc01 = { 0x07,0x05,0x01,0x02,0x0040,0x00 }; const USBStandardEndpointDescriptor ohci_hlean2131sc_device::enddesc02 = { 0x07,0x05,0x02,0x02,0x0040,0x00 }; const USBStandardEndpointDescriptor ohci_hlean2131sc_device::enddesc03 = { 0x07,0x05,0x03,0x02,0x0040,0x00 }; const USBStandardEndpointDescriptor ohci_hlean2131sc_device::enddesc81 = { 0x07,0x05,0x81,0x02,0x0040,0x00 }; const USBStandardEndpointDescriptor ohci_hlean2131sc_device::enddesc82 = { 0x07,0x05,0x82,0x02,0x0040,0x00 }; const USBStandardEndpointDescriptor ohci_hlean2131sc_device::enddesc83 = { 0x07,0x05,0x83,0x02,0x0040,0x00 }; const uint8_t ohci_hlean2131sc_device::strdesc0[] = { 0x04,0x03,0x00,0x00 }; const uint8_t ohci_hlean2131sc_device::strdesc1[] = { 0x0A,0x03,0x53,0x00,0x45,0x00,0x47,0x00,0x41,0x00 }; const uint8_t ohci_hlean2131sc_device::strdesc2[] = { 0x0E,0x03,0x42,0x00,0x41,0x00,0x53,0x00,0x45,0x00,0x42,0x00,0x44,0x00 }; ohci_hlean2131sc_device::ohci_hlean2131sc_device(const machine_config &mconfig, const char *tag, device_t *owner, uint32_t clock) : device_t(mconfig, OHCI_HLEAN2131SC, tag, owner, clock) , device_usb_ohci_function_interface(mconfig, *this) { region = nullptr; region_tag = nullptr; region_offset = 0; midi_rs232 = 0; response_size = 0; step = 0; } void ohci_hlean2131sc_device::set_region_base(uint8_t *data) { region = data; } void ohci_hlean2131sc_device::set_region(const char *_region_tag, int _region_offset) { region_tag = _region_tag; region_offset = _region_offset; } void ohci_hlean2131sc_device::initialize() { device_usb_ohci_function_interface::initialize(); add_device_descriptor(devdesc); add_configuration_descriptor(condesc); add_interface_descriptor(intdesc); // it is important to add the endpoints in the same order they are found in the device firmware add_endpoint_descriptor(enddesc01); add_endpoint_descriptor(enddesc02); add_endpoint_descriptor(enddesc03); add_endpoint_descriptor(enddesc81); add_endpoint_descriptor(enddesc82); add_endpoint_descriptor(enddesc83); add_string_descriptor(strdesc0); add_string_descriptor(strdesc1); add_string_descriptor(strdesc2); } int ohci_hlean2131sc_device::handle_nonstandard_request(int endpoint, USBSetupPacket *setup) { #ifdef VERBOSE_MSG printf("Control request to an2131sc: %x %x %x %x %x %x %x\n\r", endpoint, endpoints[endpoint].controldirection, setup->bmRequestType, setup->bRequest, setup->wValue, setup->wIndex, setup->wLength); #endif if (endpoint != 0) return -1; // default valuse for data stage for (int n = 0; n < setup->wLength; n++) endpoints[endpoint].buffer[n] = 0x50 ^ n; endpoints[endpoint].buffer[1] = 0; // PINSB register, bits 0-1 uset as rts/cts signals for uart0, bits 2-3 used as uart1, bits 5-7 used as leds (not mounted on pcb) endpoints[endpoint].buffer[2] = 0x52; // PINSB // OUTB register endpoints[endpoint].buffer[3] = 0x53; // OUTB endpoints[endpoint].buffer[4] = 0; endpoints[endpoint].buffer[5] = 0; // PINSC register, bit 7 selects default value for bit 6 after reset (connected to dip switch 5 on filter board), bits 0-1 used as uart0 pins endpoints[endpoint].buffer[6] = 0x56; // OUTC register, bit 6 specifies if uart1 should be connected to midi or rs232 endpoints[endpoint].buffer[7] = 0x57; // bRequest is a command value if (setup->bRequest == 0x16) { // this command is used to read data from the i2c serial eeprom connected to the chip // setup->wValue = start address to read from // setup->wIndex = number of bytes to read // data will be transferred to the host using endpoint 1 (IN) endpoints[1].remain = setup->wIndex & 255; endpoints[1].position = region + setup->wValue; // usually wValue is 0x1f00 endpoints[endpoint].buffer[0] = 0; } else if (setup->bRequest == 0x17) { endpoints[endpoint].buffer[0] = 0x90; } else if (setup->bRequest == 0x1a) { // used to get data received by uart0 data transferred with endpoint 2 (IN) endpoints[endpoint].buffer[0] = 0x99; } else if (setup->bRequest == 0x1b) { // used to get data received by uart 1 data transferred with endpoint 3 (IN) // setup->wIndex = number of bytes host would like to retrieve (must be lower than 256, 0 means get all available) endpoints[endpoint].buffer[0] = 0; // endpoints[endpoint].buffer[1] = 0; // bit 0 in buffer overflow bit 1 in parity error if ((setup->wIndex == 0) || (setup->wIndex > response_size)) { endpoints[endpoint].buffer[4] = response_size & 255; // how many bytes to transfer with endpoint 3 endpoints[endpoint].buffer[5] = (response_size >> 8) & 255; memcpy(endpoints[3].buffer, response, response_size); response_size = 0; } else { endpoints[endpoint].buffer[4] = setup->wIndex & 255; endpoints[endpoint].buffer[5] = (setup->wIndex >> 8) & 255; memcpy(endpoints[3].buffer, response, setup->wIndex); for (int n = setup->wIndex; n < response_size; n++) response[n - setup->wIndex] = response[n]; response_size = response_size - setup->wIndex; } endpoints[3].remain = setup->wIndex; endpoints[3].position = endpoints[3].buffer; } else if (setup->bRequest == 0x1d) { // this command is used to write data to the i2c serial eeprom connected to the chip // no more than 32 bytes can be written at a time // setup->wValue = start address to write to // setup->wIndex = number of bytes to write // data will be transferred from the host using endpoint 1 (OUT) endpoints[endpoint].buffer[0] = 0; } else if (setup->bRequest == 0x1e) { endpoints[endpoint].buffer[0] = 0x90; } else if (setup->bRequest == 0x22) { // send data to be output from uart0 endpoints[endpoint].buffer[0] = 0x99; } else if (setup->bRequest == 0x23) { // this command is used to send data to be output from uart1 // setup->wIndex = number of bytes to send // data will be transferred to the host using endpoint 3 (OUT) endpoints[endpoint].buffer[0] = 0; endpoints[3].remain = setup->wIndex; endpoints[3].position = endpoints[3].buffer; } else if (setup->bRequest == 0x25) // { endpoints[endpoint].buffer[0] = 0; } else if (setup->bRequest == 0x26) // { // set uart0 or uart1 mode endpoints[endpoint].buffer[0] = 0; } else if (setup->bRequest == 0x27) // { endpoints[endpoint].buffer[0] = 0; } else if (setup->bRequest == 0x28) { endpoints[endpoint].buffer[0] = 0x99; } else if (setup->bRequest == 0x29) { endpoints[endpoint].buffer[0] = 0x99; } else if (setup->bRequest == 0x2a) { endpoints[endpoint].buffer[0] = 0x99; } else if (setup->bRequest == 0x2b) { endpoints[endpoint].buffer[0] = 0x99; } else if (setup->bRequest == 0x2c) { endpoints[endpoint].buffer[0] = 0x99; } else if (setup->bRequest == 0x2d) { // set pin 1 of PORTB, used as the RTS signal of the rs232 port implemented with uart0 endpoints[endpoint].buffer[0] = 0x99; } else if (setup->bRequest == 0x2e) { // switches uart1 between rs232 mode and midi mode // low byte of wValue sets the mode: 0 mode is selected using pin 7 of PORTC (0 midi 1 rs232), 1 rs232, 2 midi, other values no mode change endpoints[endpoint].buffer[0] = 0; midi_rs232 = setup->wValue & 255; } else if (setup->bRequest == 0x2f) { // return low byte of wValue from command 0x2e endpoints[endpoint].buffer[0] = 0; endpoints[endpoint].buffer[4] = midi_rs232; } else if (setup->bRequest == 0x30) { // this command first disables external interrupt 0 if the lower 8 bits of setup->wValue are 0 // or enables it if those bits, seen as a signed 8 bit value, represent a number greater than 0 // then it will return in byte 4 of the data stage the value 0 if external interrupt 0 has been disabled or value 1 if it has been enabled // and in byte 5 the value of an 8 bit counter that is incremented at every external interrupt 0 endpoints[endpoint].buffer[0] = 0; if ((setup->wValue & 255) == 0) endpoints[endpoint].buffer[4] = 0; else if ((setup->wValue & 255) < 128) endpoints[endpoint].buffer[4] = 1; endpoints[endpoint].buffer[5] = 0; } else if (setup->bRequest == 0x31) { // set pins 4-7 of PORTB // bits 4-7 of wValue & 255 set the direction // bits 4-7 of wValue >> 8 set the level endpoints[endpoint].buffer[0] = 0; } else endpoints[endpoint].buffer[0] = 0x99; // usnupported command endpoints[endpoint].position = endpoints[endpoint].buffer; endpoints[endpoint].remain = setup->wLength; return 0; } int ohci_hlean2131sc_device::handle_bulk_pid(int endpoint, int pid, uint8_t *buffer, int size) { #ifdef VERBOSE_MSG printf("Bulk request to an2131sc: %x %d %x\n\r", endpoint, pid, size); #endif if (((endpoint == 1) || (endpoint == 2)) && (pid == InPid)) { if (size > endpoints[endpoint].remain) size = endpoints[endpoint].remain; memcpy(buffer, endpoints[endpoint].position, size); endpoints[endpoint].position = endpoints[endpoint].position + size; endpoints[endpoint].remain = endpoints[endpoint].remain - size; } if ((endpoint == 3) && (pid == InPid)) { if (size > endpoints[3].remain) size = endpoints[3].remain; memcpy(buffer, endpoints[3].position, size); endpoints[3].position = endpoints[3].position + size; endpoints[3].remain = endpoints[3].remain - size; } if ((endpoint == 3) && (pid == OutPid)) { if (size > endpoints[3].remain) size = endpoints[3].remain; memcpy(endpoints[3].position, buffer, size); endpoints[3].position = endpoints[3].position + size; endpoints[3].remain = endpoints[3].remain - size; for (int n = 0; n < size; n++) { uint8_t byt = buffer[n]; switch(step) { case 0: if ((byt & 0x80) != 0) { packet[0] = byt; step = 1; } break; case 1: packet[1] = byt; step = 2; break; case 2: packet[2] = byt; step = 3; break; case 3: packet[3] = byt; step = 0; process_packet(); break; } } } return size; } void ohci_hlean2131sc_device::process_packet() { uint8_t result = 0; #ifdef VERBOSE_MSG printf("%02X %02X %02X %02X\n\r", packet[0], packet[1], packet[2], packet[3]); #endif if (packet[0] == 0xff) // 00 00 7f result = 2; else if (packet[0] == 0x81) // 30 7f 4e result = 1; // must be 1 else if (packet[0] == 0xfc) // 00 20 5c result = 3; else if (packet[0] == 0xfd) // 00 00 7d result = 0; else if (packet[0] == 0xfa) // 00 1f 65 result = 0; else if (packet[0] == 0x83) // 40 04 47 result = 0; else if (packet[0] == 0x86) // 01 02 05 result = 0; else if (packet[0] == 0x88) // 00 04 0c result = 0; else if (packet[0] == 0x80) // 01 01 00 result = 0; else if (packet[0] == 0x84) // 01 00 05 result = 0; else if (packet[0] == 0xf0) // 00 00 70 result = 0; else if (packet[0] == 0x9d) result = 0; else if (packet[0] == 0x9e) result = 0; if (response_size < 256) { response[response_size] = result + (result << 4); response_size++; } } void ohci_hlean2131sc_device::device_start() { initialize(); if (region_tag) set_region_base(memregion(region_tag)->base() + region_offset); } // ======================> ide_baseboard_device class ide_baseboard_device : public ata_mass_storage_device { public: // construction/destruction ide_baseboard_device(const machine_config &mconfig, const char *tag, device_t *owner, uint32_t clock); virtual int read_sector(uint32_t lba, void *buffer) override; virtual int write_sector(uint32_t lba, const void *buffer) override; protected: // device-level overrides virtual void device_start() override; virtual void device_reset() override; uint8_t read_buffer[0x20]; uint8_t write_buffer[0x20]; chihiro_state *chihirosystem; static const int size_factor = 2; }; //************************************************************************** // IDE HARD DISK IMAGE DEVICE //************************************************************************** // device type definition DEFINE_DEVICE_TYPE(IDE_BASEBOARD, ide_baseboard_device, "ide_baseboard", "IDE Baseboard") //------------------------------------------------- // ide_baseboard_device - constructor //------------------------------------------------- ide_baseboard_device::ide_baseboard_device(const machine_config &mconfig, const char *tag, device_t *owner, uint32_t clock) : ata_mass_storage_device(mconfig, IDE_BASEBOARD, tag, owner, clock) { } //------------------------------------------------- // device_start - device-specific startup //------------------------------------------------- void ide_baseboard_device::device_start() { ata_mass_storage_device::device_start(); chihirosystem = machine().driver_data(); // savestates save_item(NAME(read_buffer)); save_item(NAME(write_buffer)); } //------------------------------------------------- // device_reset - device-specific reset //------------------------------------------------- void ide_baseboard_device::device_reset() { if (!m_can_identify_device) { m_num_cylinders = 65535; m_num_sectors = 255; m_num_heads = 255; ide_build_identify_device(); m_can_identify_device = 1; } ata_mass_storage_device::device_reset(); } int ide_baseboard_device::read_sector(uint32_t lba, void *buffer) { int off; uint8_t *data; /* It assumes there are 4 "partitions", the size of the first one depends on bits 3-0 of io port 40f4: Value Size lba 0 0x40000-0x8000 1 0x80000-0x8000 2 0x100000-0x8000 3 0x200000-0x8000 4 0x400000-0x8000 The size of the second one is always 0x8000 sectors, and is used as a special communication area This is a list of the partitions in the minimum size case: Name Start lba Size lba Size \??\mbfs: 0x0 0x38000 112MB \??\mbcom: 0x38000 0x8000 16MB \??\mbrom0: 0x8000000 0x800 1MB \??\mbrom1: 0x8000800 0x800 1MB This is a list of the partitions in the maximum size case: Name Start lba Size lba Size \??\mbfs: 0x0 0x3f8000 2032MB \??\mbcom: 0x3f8000 0x8000 16MB \??\mbrom0: 0x8000000 0x800 1MB \??\mbrom1: 0x8000800 0x800 1MB */ logerror("baseboard: read sector lba %08x\n", lba); if (lba >= 0x08000000) { off = (lba & 0x7ff) * 512; data = memregion(":mediaboard")->base(); memcpy(buffer, data + off, 512); return 1; } if (lba >= ((0x40000 << size_factor) - 0x8000)) { memset(buffer, 0, 512); lba = lba - ((0x40000 << size_factor) - 0x8000); if (lba == 0x4800) memcpy(buffer, read_buffer, 0x20); else if (lba == 0x4801) memcpy(buffer, write_buffer, 0x20); return 1; } // in a type 1 chihiro this gets data from the dimm board memory data = chihirosystem->baseboard_ide_dimmboard(lba); if (data != nullptr) memcpy(buffer, data, 512); return 1; } int ide_baseboard_device::write_sector(uint32_t lba, const void *buffer) { logerror("baseboard: write sector lba %08x\n", lba); if (lba >= ((0x40000 << size_factor) - 0x8000)) { lba = lba - ((0x40000 << size_factor) - 0x8000); if (lba == 0x4800) memcpy(read_buffer, buffer, 0x20); else if (lba == 0x4801) { memcpy(write_buffer, buffer, 0x20); // call chihiro driver chihirosystem->baseboard_ide_event(3, read_buffer, write_buffer); } } return 1; } /* * Chihiro Type 1 baseboard */ void chihiro_state::dword_write_le(uint8_t *addr, uint32_t d) { addr[0] = d & 255; addr[1] = (d >> 8) & 255; addr[2] = (d >> 16) & 255; addr[3] = (d >> 24) & 255; } void chihiro_state::word_write_le(uint8_t *addr, uint16_t d) { addr[0] = d & 255; addr[1] = (d >> 8) & 255; } void chihiro_state::baseboard_ide_event(int type, uint8_t *read_buffer, uint8_t *write_buffer) { int c; if ((type != 3) || ((write_buffer[0] == 0) && (write_buffer[1] == 0))) return; #ifdef LOG_BASEBOARD logerror("Baseboard sector command:\n"); for (int a = 0; a < 32; a++) logerror(" %02X", write_buffer[a]); logerror("\n"); #endif // response // second word 8001 (8000+counter), first word=first word of written data (command ?), second dword ? read_buffer[0] = write_buffer[0]; read_buffer[1] = write_buffer[1]; read_buffer[2] = 0x01; // write_buffer[2]; read_buffer[3] = 0x80; // write_buffer[3] | 0x80; c = write_buffer[2] + (write_buffer[3] << 8); // 0001 0101 0103 switch (c) { case 0x0001: // second dword dword_write_le(read_buffer + 4, 0x00f00000); // ? break; case 0x0100: // second dword third dword dword_write_le(read_buffer + 4, 5); // game data loading phase dword_write_le(read_buffer + 8, 0); // completion % break; case 0x0101: // third word fourth word word_write_le(read_buffer + 4, 0x1234); // dimm board firmware version (1234 -> 12.34) word_write_le(read_buffer + 6, 0x4567); // ? break; case 0x0102: // second dword dword_write_le(read_buffer + 4, 0); // bit 16 develop. mode break; case 0x0103: // dwords 1 3 4 memcpy(read_buffer + 4, "-abc-abc12345678", 16); // dimm board serial number break; default: logerror("Unknown baseboard sector command %04X\n", c); } // clear write_buffer[0] = write_buffer[1] = write_buffer[2] = write_buffer[3] = 0; // irq 10 active mcpxlpc->irq10(1); } uint8_t *chihiro_state::baseboard_ide_dimmboard(uint32_t lba) { // return pointer to memory containing decrypted gdrom data (contains an image of a fatx partition) if (m_dimmboard.found()) return &m_dimm_board_memory[lba * 512]; return nullptr; } uint32_t chihiro_state::mediaboard_r(offs_t offset, uint32_t mem_mask) { uint32_t r; logerror("I/O port read %04x mask %08X\n", offset * 4 + 0x4000, mem_mask); r = 0; if ((offset == 0x1c/4) && ACCESSING_BITS_16_31) r = 0x10000000; if ((offset == 0x20/4) && ACCESSING_BITS_0_15) r = 0x000000a0; if ((offset == 0x20/4) && ACCESSING_BITS_16_31) r = 0x42580000; if ((offset == 0x24/4) && ACCESSING_BITS_0_15) r = 0x00004d41; if ((offset == 0xf0/4) && ACCESSING_BITS_0_15) r = 0x00000000; // bits 15-0 0 if media board present if ((offset == 0xf4/4) && ACCESSING_BITS_0_15) r = 2; // bits 3-0 size of dimm board memory. 0=128 1=256 2=512 3=1024 Must be 2 return r; } void chihiro_state::mediaboard_w(offs_t offset, uint32_t data, uint32_t mem_mask) { logerror("I/O port write %04x mask %08X value %08X\n", offset * 4 + 0x4000, mem_mask, data); // irq 10 if ((offset == 0xe0/4) && ACCESSING_BITS_8_15) mcpxlpc->irq10(0); } void chihiro_state::chihiro_map(address_map &map) { map(0xff000000, 0xff07ffff).rom().region("bios", 0).mirror(0x00f80000); } void chihiro_state::chihiro_map_io(address_map &map) { map(0x4000, 0x40ff).rw(FUNC(chihiro_state::mediaboard_r), FUNC(chihiro_state::mediaboard_w)); } static INPUT_PORTS_START(chihiro) PORT_START("TILT") PORT_BIT(0x80, IP_ACTIVE_HIGH, IPT_TILT) PORT_BIT(0x7f, IP_ACTIVE_HIGH, IPT_UNUSED) PORT_START("P1") PORT_BIT(0x8000, IP_ACTIVE_HIGH, IPT_START1) PORT_BIT(0x2000, IP_ACTIVE_HIGH, IPT_JOYSTICK_UP) PORT_8WAY PORT_BIT(0x1000, IP_ACTIVE_HIGH, IPT_JOYSTICK_DOWN) PORT_8WAY PORT_BIT(0x0800, IP_ACTIVE_HIGH, IPT_JOYSTICK_LEFT) PORT_8WAY PORT_BIT(0x0400, IP_ACTIVE_HIGH, IPT_JOYSTICK_RIGHT) PORT_8WAY PORT_BIT(0x0200, IP_ACTIVE_HIGH, IPT_BUTTON1) PORT_BIT(0x0100, IP_ACTIVE_HIGH, IPT_BUTTON2) PORT_BIT(0x0080, IP_ACTIVE_HIGH, IPT_BUTTON3) PORT_BIT(0x0040, IP_ACTIVE_HIGH, IPT_BUTTON4) PORT_BIT(0x0020, IP_ACTIVE_HIGH, IPT_BUTTON5) PORT_BIT(0x0010, IP_ACTIVE_HIGH, IPT_BUTTON6) PORT_BIT(0x400f, IP_ACTIVE_HIGH, IPT_UNUSED) PORT_START("P2") PORT_BIT(0x8000, IP_ACTIVE_HIGH, IPT_START2) PORT_BIT(0x2000, IP_ACTIVE_HIGH, IPT_JOYSTICK_UP) PORT_8WAY PORT_PLAYER(2) PORT_BIT(0x1000, IP_ACTIVE_HIGH, IPT_JOYSTICK_DOWN) PORT_8WAY PORT_PLAYER(2) PORT_BIT(0x0800, IP_ACTIVE_HIGH, IPT_JOYSTICK_LEFT) PORT_8WAY PORT_PLAYER(2) PORT_BIT(0x0400, IP_ACTIVE_HIGH, IPT_JOYSTICK_RIGHT) PORT_8WAY PORT_PLAYER(2) PORT_BIT(0x0200, IP_ACTIVE_HIGH, IPT_BUTTON1) PORT_PLAYER(2) PORT_BIT(0x0100, IP_ACTIVE_HIGH, IPT_BUTTON2) PORT_PLAYER(2) PORT_BIT(0x0080, IP_ACTIVE_HIGH, IPT_BUTTON3) PORT_PLAYER(2) PORT_BIT(0x0040, IP_ACTIVE_HIGH, IPT_BUTTON4) PORT_PLAYER(2) PORT_BIT(0x0020, IP_ACTIVE_HIGH, IPT_BUTTON5) PORT_PLAYER(2) PORT_BIT(0x0010, IP_ACTIVE_HIGH, IPT_BUTTON6) PORT_PLAYER(2) PORT_BIT(0x400f, IP_ACTIVE_HIGH, IPT_UNUSED) /* Dummy so we can easily get the analog ch # */ PORT_START("A0") PORT_BIT(0x80ff, IP_ACTIVE_LOW, IPT_UNUSED) PORT_START("A1") PORT_BIT(0x81ff, IP_ACTIVE_LOW, IPT_UNUSED) PORT_START("A2") PORT_BIT(0x82ff, IP_ACTIVE_LOW, IPT_UNUSED) PORT_START("A3") PORT_BIT(0x83ff, IP_ACTIVE_LOW, IPT_UNUSED) PORT_START("A4") PORT_BIT(0x84ff, IP_ACTIVE_LOW, IPT_UNUSED) PORT_START("A5") PORT_BIT(0x85ff, IP_ACTIVE_LOW, IPT_UNUSED) PORT_START("A6") PORT_BIT(0x86ff, IP_ACTIVE_LOW, IPT_UNUSED) PORT_START("A7") PORT_BIT(0x87ff, IP_ACTIVE_LOW, IPT_UNUSED) INPUT_PORTS_END void chihiro_state::machine_start() { xbox_base_state::machine_start(); if (m_dimmboard.found()) m_dimm_board_memory = m_dimmboard->memory(m_dimm_board_memory_size); if (machine().debug_flags & DEBUG_FLAG_ENABLED) { using namespace std::placeholders; machine().debugger().console().register_command("chihiro", CMDFLAG_NONE, 0, 1, 4, std::bind(&chihiro_state::debug_commands, this, _1, _2)); } m_hack_index = -1; for (int a = 1; a < HACK_ITEMS; a++) if (machine().basename() == hacks[a].game_name) { m_hack_index = a; break; } m_hack_counter = 0; // savestates save_item(NAME(m_hack_counter)); } class sega_network_board : public device_t { public: sega_network_board(const machine_config &mconfig, const char *tag, device_t *owner, uint32_t clock); virtual const tiny_rom_entry *device_rom_region() const override; protected: virtual void device_start() override; }; DEFINE_DEVICE_TYPE(SEGA_NETWORK_BOARD, sega_network_board, "seganetw", "Sega Network Board") sega_network_board::sega_network_board(const machine_config &mconfig, const char *tag, device_t *owner, uint32_t clock) : device_t(mconfig, SEGA_NETWORK_BOARD, tag, owner, clock) { } void sega_network_board::device_start() { } ROM_START(seganetw) ROM_REGION( 0x200000, "seganetw", 0) ROM_LOAD16_WORD_SWAP( "ver1305.bin", 0x000000, 0x200000, CRC(a738ea1c) SHA1(45d94d0c39be1cb3db9fab6610a88a550adda4e9) ) ROM_END const tiny_rom_entry *sega_network_board::device_rom_region() const { return ROM_NAME(seganetw); } static void ide_baseboard(device_slot_interface &device) { device.option_add("bb", IDE_BASEBOARD); } void usb_baseboard(device_slot_interface &device) { device.option_add("an2131qc", OHCI_HLEAN2131QC); device.option_add("an2131sc", OHCI_HLEAN2131SC); device.option_add("xbox_controller", OHCI_GAME_CONTROLLER); } void chihiro_state::an2131qc_configuration(device_t *device) { MCFG_OHCI_HLEAN2131QC_REGION(":others", 0) } void chihiro_state::an2131sc_configuration(device_t *device) { MCFG_OHCI_HLEAN2131SC_REGION(":others", 0x2080) } void chihiro_state::chihiro_base(machine_config &config) { xbox_base(config); m_maincpu->set_addrmap(AS_PROGRAM, &chihiro_state::chihiro_map); m_maincpu->set_addrmap(AS_IO, &chihiro_state::chihiro_map_io); subdevice(":pci:09.0:ide1")->options(ide_baseboard, nullptr, "bb", true); OHCI_USB_CONNECTOR(config, ":pci:02.0:port1", usb_baseboard, "an2131qc", true).set_option_machine_config("an2131qc", an2131qc_configuration); OHCI_USB_CONNECTOR(config, ":pci:02.0:port2", usb_baseboard, "an2131sc", true).set_option_machine_config("an2131sc", an2131sc_configuration); OHCI_USB_CONNECTOR(config, ":pci:02.0:port3", usb_baseboard, nullptr, false); OHCI_USB_CONNECTOR(config, ":pci:02.0:port4", usb_baseboard, nullptr, false); JVS_MASTER(config, "jvs_master", 0); sega_837_13551_device &sega837(SEGA_837_13551(config, "837_13551", 0, "jvs_master")); sega837.set_port_tag<0>("TILT"); sega837.set_port_tag<1>("P1"); sega837.set_port_tag<2>("P2"); sega837.set_port_tag<3>("A0"); sega837.set_port_tag<4>("A1"); sega837.set_port_tag<5>("A2"); sega837.set_port_tag<6>("A3"); sega837.set_port_tag<7>("A4"); sega837.set_port_tag<8>("A5"); sega837.set_port_tag<9>("A6"); sega837.set_port_tag<10>("A7"); sega837.set_port_tag<11>("OUTPUT"); } void chihiro_state::chihirogd(machine_config &config) { chihiro_base(config); NAOMI_GDROM_BOARD(config, m_dimmboard, 0, ":gdrom", "pic"); m_dimmboard->irq_callback().set_nop(); SEGA_NETWORK_BOARD(config, "network", 0); } #define ROM_LOAD16_WORD_SWAP_BIOS(bios,name,offset,length,hash) \ ROMX_LOAD(name, offset, length, hash, ROM_GROUPWORD | ROM_BIOS(bios)) #define ROM_LOAD_BIOS(bios,name,offset,length,hash) \ ROMX_LOAD(name, offset, length, hash, ROM_BIOS(bios)) #define CHIHIRO_BIOS \ ROM_REGION32_LE( 0x80000, "bios", 0) \ ROM_SYSTEM_BIOS( 0, "bios0", "Chihiro Bios" ) \ ROM_LOAD_BIOS( 0, "chihiro_xbox_bios.bin", 0x000000, 0x80000, CRC(66232714) SHA1(b700b0041af8f84835e45d1d1250247bf7077188) ) \ ROM_REGION( 0x200000, "mediaboard", 0) \ ROM_LOAD16_WORD_SWAP_BIOS( 0, "fpr21042_m29w160et.bin", 0x000000, 0x200000, CRC(a4fcab0b) SHA1(a13cf9c5cdfe8605d82150b7573652f419b30197) ) \ ROM_REGION( 0x204080, "others", 0) \ ROM_LOAD16_WORD_SWAP_BIOS( 0, "ic10_g24lc64.bin", 0x0000, 0x2000, CRC(cfc5e06f) SHA1(3ababd4334d8d57abb22dd98bd2d347df39648d9) ) \ ROM_LOAD16_WORD_SWAP_BIOS( 0, "ic11_24lc024.bin", 0x2000, 0x80, CRC(8dc8374e) SHA1(cc03a0650bfac4bf6cb66e414bbef121cba53efe) ) \ ROM_LOAD16_WORD_SWAP_BIOS( 0, "pc20_g24lc64.bin", 0x2080, 0x2000, CRC(7742ab62) SHA1(82dad6e2a75bab4a4840dc6939462f1fb9b95101) ) ROM_START( chihiro ) CHIHIRO_BIOS DISK_REGION( "gdrom" ) ROM_REGION( 0x50, "pic", ROMREGION_ERASE) ROM_END /* Title THE HOUSE OF THE DEAD 3 Media ID 2673 Media Config GD-ROM1/1 Regions J Peripheral String 0000000 Product Number GDX-0001 Version V1.004 Release Date 20021029 Manufacturer ID TOC DISC Track Start Sector End Sector Track Size track01.bin 150 599 1058400 track02.raw 750 2101 3179904 track03.bin 45150 549299 1185760800 PIC 253-5508-0348 317-0348-com */ ROM_START( hotd3 ) CHIHIRO_BIOS DISK_REGION( "gdrom" ) DISK_IMAGE_READONLY( "gdx-0001", 0, SHA1(e41a2b236ec26db2d8b07643b8222e64440d1f31) ) ROM_REGION( 0x50, "pic", ROMREGION_ERASE) ROM_LOAD("317-0348-com.data", 0x00, 0x50, CRC(d28219ef) SHA1(40dbbc092bc9f99b8d2ae67fbefacd62184f90ec) ) ROM_END /* Title CRAZY TAXI HIGHROLLER Media ID 0D2E Media Config GD-ROM1/1 Regions J Peripheral String 0000000 Product Number GDX-0002B Version V3.000 Release Date 20030224 Manufacturer ID TOC DISC Track Start Sector End Sector Track Size track01.bin 150 599 1058400 track02.raw 750 2101 3179904 track03.bin 45150 549299 1185760800 PIC 253-5508-0353 317-0353-COM */ ROM_START( crtaxihr ) CHIHIRO_BIOS DISK_REGION( "gdrom" ) DISK_IMAGE_READONLY( "gdx-0002b", 0, SHA1(e77d31aea9d4bf150e427aecf29b97855c2096f6) ) ROM_REGION( 0x4000, "pic", ROMREGION_ERASEFF) ROM_LOAD( "317-0353-com.pic", 0x000000, 0x004000, CRC(1c6830b1) SHA1(75be47441783c18ee296209a34c432864deed70d) ) ROM_END /* Title VIRTUA COP 3 Media ID C4AD Media Config GD-ROM1/1 Regions J Peripheral String 0000000 Product Number GDX-0003A Version V2.004 Release Date 20030226 Manufacturer ID TOC DISC Track Start Sector End Sector Track Size track01.bin 150 599 1058400 track02.raw 750 2101 3179904 track03.bin 45150 549299 1185760800 PIC 255-5508-354 317-0354-COM */ ROM_START( vcop3a ) CHIHIRO_BIOS DISK_REGION( "gdrom" ) DISK_IMAGE_READONLY( "gdx-0003a", 0, SHA1(04cd12bec50a9e9f1f05e7b7c2ef396800a385dd) ) ROM_REGION( 0x50, "pic", ROMREGION_ERASE) ROM_LOAD("317-0354-com.data", 0x00, 0x50, CRC(df7e3217) SHA1(9f0f4bf6b15f3b6eeea81eaa27b3d25bd94110da) ) ROM_END ROM_START( vcop3 ) CHIHIRO_BIOS DISK_REGION( "gdrom" ) DISK_IMAGE_READONLY( "gdx-0003b", 0, SHA1(4268aadb83c880d4f3dab1d43ddd0a3a2f8befa2) ) ROM_REGION( 0x50, "pic", ROMREGION_ERASE) ROM_LOAD("317-0354-com.data", 0x00, 0x50, CRC(df7e3217) SHA1(9f0f4bf6b15f3b6eeea81eaa27b3d25bd94110da) ) ROM_END ROM_START( outr2 ) CHIHIRO_BIOS DISK_REGION( "gdrom" ) DISK_IMAGE_READONLY( "gdx-0004a", 0, SHA1(055a13a5dc4f54e6b6bdf5ce29dbda14cc9741d7) ) ROM_REGION( 0x50, "pic", ROMREGION_ERASE) ROM_LOAD("317-0372-com.data", 0x00, 0x50, CRC(a15c9666) SHA1(fd36c524744acb33e579ccb257c71375a5d3af67) ) ROM_END ROM_START( mj2c ) CHIHIRO_BIOS DISK_REGION( "gdrom" ) DISK_IMAGE_READONLY( "gdx-0006c", 0, SHA1(545ef902833d53822a8544dfc3f7538ee6025c9e) ) ROM_REGION( 0x4000, "pic", ROMREGION_ERASEFF) ROM_LOAD( "317-0374-jpn.pic", 0x000000, 0x004000, CRC(004f77a1) SHA1(bc5c6950293f3bff60bf7913d20a2046aa19ea69) ) ROM_END ROM_START( mj2f ) CHIHIRO_BIOS DISK_REGION( "gdrom" ) DISK_IMAGE_READONLY( "gdx-0006f", 0, SHA1(d3900ca5135f9001e642c78b4d323d353880b41b) ) ROM_REGION( 0x4000, "pic", ROMREGION_ERASEFF) ROM_LOAD( "317-0374-jpn.pic", 0x000000, 0x004000, CRC(004f77a1) SHA1(bc5c6950293f3bff60bf7913d20a2046aa19ea69) ) ROM_END /* Title MJ2 Media ID 3580 Media Config GD-ROM1/1 Regions J Peripheral String 0000000 Product Number GDX-0006G Version V8.000 Release Date 20050202 Manufacturer ID TOC DISC Track Start Sector End Sector Track Size track01.bin 150 599 1058400 track02.raw 750 2101 3179904 track03.bin 45150 549299 1185760800 */ ROM_START( mj2 ) CHIHIRO_BIOS DISK_REGION( "gdrom" ) DISK_IMAGE_READONLY( "gdx-0006g", 0, SHA1(b8c8b440d4cd2488be78e3a002058ea5b176a1f2) ) ROM_REGION( 0x4000, "pic", ROMREGION_ERASEFF) ROM_LOAD( "317-0374-jpn.pic", 0x000000, 0x004000, CRC(004f77a1) SHA1(bc5c6950293f3bff60bf7913d20a2046aa19ea69) ) ROM_END ROM_START( ollie ) CHIHIRO_BIOS DISK_REGION( "gdrom" ) DISK_IMAGE_READONLY( "gdx-0007", 0, SHA1(0a3ceb57f1c53154d8b449c38d0546cf35342a50) ) ROM_REGION( 0x50, "pic", ROMREGION_ERASE) ROM_LOAD("317-0377-com.data", 0x00, 0x50, CRC(d2a8b31f) SHA1(e9ee2df30031826db6bc4bd91969e6680255dcf9) ) ROM_END ROM_START( wangmidj ) CHIHIRO_BIOS DISK_REGION( "gdrom" ) DISK_IMAGE_READONLY( "gdx-0008b", 0, SHA1(ddf8bde014fee2f0a8a320e4ce19a1729b487e48) ) ROM_REGION( 0x50, "pic", ROMREGION_ERASE) //PIC16C621A (317-5101-COM) //(sticker 253-5509-5101) ROM_LOAD("317-5101-com.data", 0x00, 0x50, CRC(3af801f3) SHA1(e9a2558930f3f1f55d5b3c2cadad69329d931f26) ) ROM_END ROM_START( wangmid ) CHIHIRO_BIOS DISK_REGION( "gdrom" ) DISK_IMAGE_READONLY( "gdx-0009b", 0, SHA1(6fcbebb95b53eaabbc5da6ee08fbe15c2922b8d4) ) ROM_REGION( 0x50, "pic", ROMREGION_ERASE) ROM_LOAD("317-5101-com.data", 0x00, 0x50, CRC(3af801f3) SHA1(e9a2558930f3f1f55d5b3c2cadad69329d931f26) ) // Sanwa CRP-1231LR-10NAB card reader-printer ROM_REGION( 0x20000, "card_reader", ROMREGION_ERASE) // CRP1231LR10 8B16 // Ver. 01.10 ??? // 01/10/12 NA // ?? : ME163-5258Z01 ROM_LOAD("crp1231lr10_ver0110.ic2", 0, 0x20000, CRC(0d30707c) SHA1(425e25c6203d0b400d12391916db3f7cdad00f7a) ) // H8/3003 code ROM_END ROM_START( scg05nt ) CHIHIRO_BIOS DISK_REGION( "gdrom" ) DISK_IMAGE_READONLY( "gdx-0010c", 0, SHA1(ef3d7577960a21cc71b4523fa26880f7897b628c) ) ROM_REGION( 0x4000, "pic", ROMREGION_ERASEFF) ROM_LOAD( "317-unknown.pic", 0x000000, 0x004000, CRC(36858860) SHA1(b36a0c10b614fdeb7dcd94f4898efc24e5db896a) ) ROM_END ROM_START( outr2stjo ) CHIHIRO_BIOS DISK_REGION( "gdrom" ) DISK_IMAGE_READONLY( "gdx-0011", 0, SHA1(b2cc163109c7f218ce83c76cd995c34e5d2f2812) ) ROM_REGION( 0x4000, "pic", ROMREGION_ERASEFF) ROM_LOAD( "317-0396-com.pic", 0x000000, 0x004000, CRC(f94cf26f) SHA1(dd4af2b52935c7b2d8cd196ec1a30c0ef0993322) ) ROM_END ROM_START( outr2stj ) CHIHIRO_BIOS DISK_REGION( "gdrom" ) DISK_IMAGE_READONLY( "gdx-0011a", 0, SHA1(097c0c746f3bd2b926a7a9a03f868d99b8f77b09) ) ROM_REGION( 0x4000, "pic", ROMREGION_ERASEFF) ROM_LOAD( "317-0396-com.pic", 0x000000, 0x004000, CRC(f94cf26f) SHA1(dd4af2b52935c7b2d8cd196ec1a30c0ef0993322) ) ROM_END ROM_START( ghostsqo ) CHIHIRO_BIOS DISK_REGION( "gdrom" ) DISK_IMAGE_READONLY( "gdx-0012", 0, SHA1(ad5d08cc3b8cfd0890feb152670b429c28659512) ) ROM_REGION( 0x4010, "pic", ROMREGION_ERASE) ROM_LOAD("317-0398-com.pic", 0x00, 0x4010, CRC(0b9dfe4b) SHA1(eaa6663cfc49a7bda0ee60844f9d710c99a2b48a) ) ROM_END /* Title GHOST SQUAD Media ID 004F Media Config GD-ROM1/1 Regions J Peripheral String 0000000 Product Number GDX-0012A Version V2.000 Release Date 20041209 Manufacturer ID PIC16C621A-20/P 253-5508-0398 317-0398-COM */ ROM_START( ghostsqu ) CHIHIRO_BIOS DISK_REGION( "gdrom" ) DISK_IMAGE_READONLY( "gdx-0012a", 0, SHA1(d14adac9cdfd8095362fa9600c50bf038d4e5a99) ) ROM_REGION( 0x4010, "pic", ROMREGION_ERASE) ROM_LOAD("317-0398-com.pic", 0x00, 0x4010, CRC(0b9dfe4b) SHA1(eaa6663cfc49a7bda0ee60844f9d710c99a2b48a) ) ROM_END ROM_START( gundamos ) CHIHIRO_BIOS DISK_REGION( "gdrom" ) DISK_IMAGE_READONLY( "gdx-0013", 0, SHA1(f97dceb9b4c4adff51d222ab2e6b9b0fe36394a8) ) ROM_REGION( 0x50, "pic", ROMREGION_ERASE) ROM_LOAD("317-0400-jpn.data", 0x00, 0x50, CRC(0479c383) SHA1(7e86a037d2f9d09cec61a38cb19de510bf9482b3) ) ROM_END ROM_START( outr2sto ) CHIHIRO_BIOS DISK_REGION( "gdrom" ) DISK_IMAGE_READONLY( "gdx-0014", 0, SHA1(95fa57242e3b708c134c2a34616b745d96c6c811) ) ROM_REGION( 0x4000, "pic", ROMREGION_ERASEFF) ROM_LOAD( "317-0396-com.pic", 0x000000, 0x004000, CRC(f94cf26f) SHA1(dd4af2b52935c7b2d8cd196ec1a30c0ef0993322) ) ROM_END ROM_START( outr2st ) CHIHIRO_BIOS DISK_REGION( "gdrom" ) DISK_IMAGE_READONLY( "gdx-0014a", 0, SHA1(ed60aa1a402bcb01229b18987af199566b930b0b) ) ROM_REGION( 0x4000, "pic", ROMREGION_ERASEFF) ROM_LOAD( "317-0396-com.pic", 0x000000, 0x004000, CRC(f94cf26f) SHA1(dd4af2b52935c7b2d8cd196ec1a30c0ef0993322) ) ROM_END ROM_START( wangmid2j ) CHIHIRO_BIOS DISK_REGION( "gdrom" ) DISK_IMAGE_READONLY( "gdx-0015", 0, SHA1(489bdb96cecaa8c45908a630f64b3cf10e433619) ) ROM_REGION( 0x50, "pic", ROMREGION_ERASE) ROM_LOAD("317-5106-jpn.data", 0x00, 0x50, CRC(75c716aa) SHA1(5c2bcf3d28a80b336c6882d5aeb010d04327f8c1) ) ROM_END ROM_START( wangmid2ja ) CHIHIRO_BIOS DISK_REGION( "gdrom" ) DISK_IMAGE_READONLY( "gdx-0015a", 0, SHA1(0c8e5170e178fcc25acd93a4c2ae79c1e4688f85) ) ROM_REGION( 0x50, "pic", ROMREGION_ERASE) ROM_LOAD("317-5106-jpn.data", 0x00, 0x50, CRC(75c716aa) SHA1(5c2bcf3d28a80b336c6882d5aeb010d04327f8c1) ) ROM_END ROM_START( wangmid2o ) CHIHIRO_BIOS DISK_REGION( "gdrom" ) DISK_IMAGE_READONLY( "gdx-0016", 0, SHA1(a373e3af96bbeea00a44bbe3adfd863d5a94aed9) ) ROM_REGION( 0x50, "pic", ROMREGION_ERASE) ROM_LOAD("317-5106-com.data", 0x00, 0x50, CRC(75c716aa) SHA1(5c2bcf3d28a80b336c6882d5aeb010d04327f8c1) ) ROM_END ROM_START( wangmid2 ) CHIHIRO_BIOS DISK_REGION( "gdrom" ) DISK_IMAGE_READONLY( "gdx-0016a", 0, SHA1(1cbc5e3e9ef1ab26468b9f4ee0fc32a0a320afe7) ) ROM_REGION( 0x50, "pic", ROMREGION_ERASE) ROM_LOAD("317-5106-com.data", 0x00, 0x50, CRC(75c716aa) SHA1(5c2bcf3d28a80b336c6882d5aeb010d04327f8c1) ) ROM_END ROM_START( mj3c ) CHIHIRO_BIOS DISK_REGION( "gdrom" ) DISK_IMAGE_READONLY( "gdx-0017c", 0, SHA1(72545708369aefe8fac82fb0b67774390bb956c6) ) ROM_REGION( 0x4000, "pic", ROMREGION_ERASEFF) ROM_LOAD( "317-0414-jpn.pic", 0x000000, 0x004000, CRC(27d1c541) SHA1(c85a8229dd769af02ab43c97f09f995743cdb315) ) ROM_END ROM_START( mj3d ) CHIHIRO_BIOS DISK_REGION( "gdrom" ) DISK_IMAGE_READONLY( "gdx-0017d", 0, SHA1(d90e06bd1e4c637cb9949d411da11537e72ac3d2) ) ROM_REGION( 0x4000, "pic", ROMREGION_ERASEFF) ROM_LOAD( "317-0414-jpn.pic", 0x000000, 0x004000, CRC(27d1c541) SHA1(c85a8229dd769af02ab43c97f09f995743cdb315) ) ROM_END ROM_START( mj3 ) CHIHIRO_BIOS DISK_REGION( "gdrom" ) DISK_IMAGE_READONLY( "gdx-0017f", 0, SHA1(8641be9b2e1d8eb33cf27d3444956c0117debc2f) ) ROM_REGION( 0x4000, "pic", ROMREGION_ERASEFF) ROM_LOAD( "317-0414-jpn.pic", 0x000000, 0x004000, CRC(27d1c541) SHA1(c85a8229dd769af02ab43c97f09f995743cdb315) ) ROM_END ROM_START( scg06nt ) CHIHIRO_BIOS DISK_REGION( "gdrom" ) DISK_IMAGE_READONLY( "gdx-0018a", 0, SHA1(3c10775aefc5e3e49837bf473fb32e94507ee892) ) ROM_REGION( 0x50, "pic", ROMREGION_ERASE) ROM_LOAD("317-0428-jpn.data", 0x00, 0x50, CRC(1a210abd) SHA1(43a54d028315d2dfa9f8ea6fb59265e0b980b02f) ) ROM_END ROM_START( mj3evoa ) CHIHIRO_BIOS DISK_REGION( "gdrom" ) DISK_IMAGE_READONLY( "gdx-0021a", 0, SHA1(02c67e8f618b6f4de54898b0c0033b4e0077f2b5) ) ROM_REGION( 0x4000, "pic", ROMREGION_ERASEFF) ROM_LOAD( "317-0457-jpn.pic", 0x000000, 0x004000, CRC(650fcc94) SHA1(c88488900460fb3deecb3cf376fc043b10c020ef) ) ROM_END ROM_START( mj3evo ) CHIHIRO_BIOS DISK_REGION( "gdrom" ) DISK_IMAGE_READONLY( "gdx-0021b", 0, SHA1(c97d1dc95cdf1b4bd5d7cf6b4db0757f3d6bd723) ) ROM_REGION( 0x4000, "pic", ROMREGION_ERASEFF) ROM_LOAD( "317-0457-jpn.pic", 0x000000, 0x004000, CRC(650fcc94) SHA1(c88488900460fb3deecb3cf376fc043b10c020ef) ) ROM_END ROM_START( mj3evoup ) CHIHIRO_BIOS DISK_REGION( "gdrom" ) DISK_IMAGE_READONLY( "gdx-0023", 0, SHA1(fd88b7abff4f0932ac650d103e52ac598e82e5fb) ) ROM_REGION( 0x4000, "pic", ROMREGION_ERASEFF) ROM_LOAD( "317-0457-jpn.pic", 0x000000, 0x004000, CRC(650fcc94) SHA1(c88488900460fb3deecb3cf376fc043b10c020ef) ) ROM_END /* Title BOX GDROM CF-BOX FIRM Media ID EB08 Media Config GD-ROM1/1 Regions J Peripheral String 0000000 Product Number GDX-0024A Version V2.000 Release Date 20090331 Manufacturer ID TOC DISC Track Start Sector End Sector Track Size track01.bin 150 8740 20206032 track02.raw 8891 10242 3179904 track03.bin 45150 549299 1185760800 */ ROM_START( ccfboxa ) CHIHIRO_BIOS DISK_REGION( "gdrom" ) DISK_IMAGE_READONLY( "gdx-0024a", 0, SHA1(79d8c0faeec7cf6882f014760b8af938800b7e52) ) ROM_REGION( 0x4000, "pic", ROMREGION_ERASEFF) //PIC16C621A (317-0567-EXP) //(sticker 253-5508-0567) ROM_LOAD("317-0567-exp.pic", 0x00, 0x4000, CRC(cd1d2b2d) SHA1(78203ee0339f76eb76da08d7de43e7e44e4b7d32) ) ROM_END /* Title CHIHIRO CHANGE REGION GD USA Checksum E588 Media Config GD-ROM1/1 Regions J Peripheral String 0000000 Product Number 611-0028A Version V2.001 Release Date 20030226 */ ROM_START( cregchg ) CHIHIRO_BIOS DISK_REGION( "gdrom" ) DISK_IMAGE_READONLY( "611-0028a", 0, SHA1(f88d2525ed8c68b380ebd95d22fac28383a7642f) ) ROM_REGION( 0x4000, "pic", ROMREGION_ERASEFF) //PIC16C621A (317-0351-EXP) //(sticker 253-5508-0351E) ROM_LOAD("317-0351-exp.pic", 0x00, 0x4000, CRC(25f37472) SHA1(8ffdd637c1eb9989b3b635aface0def9e841f227) ) ROM_END /* CDV-1xxxx (Sega network CD-ROM and DVD-ROM games) */ ROM_START( questofd ) CHIHIRO_BIOS // "Quest of D" // DVD QOD 1.01C // CDV-10005C DISK_REGION( "gdrom" ) DISK_IMAGE_READONLY( "cdv-10005c", 0, SHA1(b30238cf8697fb7313fedbe75b70641e9418090f) ) // DVD ROM_REGION( 0x4000, "pic", ROMREGION_ERASEFF) //PIC16C621A (317-0376-JPN) ROM_LOAD("317-0376-jpn.pic", 0x00, 0x4000, CRC(c6914d97) SHA1(e86897efcca86f303117d1ead6ede53ac410add8) ) // "Quest of D" // DVD QOD FIRMWARE UPDATE // CDV-10018 DISK_REGION("update") DISK_IMAGE_READONLY( "cdv-10018", 0, SHA1(46b00118450f68d5e9319ee3111db47efe3c3098) ) // DVD ROM_END ROM_START( gundcb79 ) CHIHIRO_BIOS DISK_REGION( "gdrom" ) DISK_IMAGE_READONLY( "cdv-10010", 0, SHA1(88b97408315515909e79d101b37f580fd1f079ce) ) ROM_REGION( 0x4000, "pic", ROMREGION_ERASEFF) //PIC16C621A (317-0415-JPN) //(sticker 253-5508-0415J) ROM_LOAD("317-0415-jpn.pic", 0x00, 0x4000, CRC(e5490747) SHA1(91de42a562a265e4cfa1788e40985a5b9055a10a) ) ROM_END ROM_START( gundcb79a ) CHIHIRO_BIOS DISK_REGION( "gdrom" ) DISK_IMAGE_READONLY( "cdv-10024b", 0, SHA1(acc344d7583df191e7c60ff968dedcfe12600018) ) ROM_REGION( 0x4000, "pic", ROMREGION_ERASEFF) //PIC16C621A (317-0415-JPN) //(sticker 253-5508-0415J) ROM_LOAD("317-0415-jpn.pic", 0x00, 0x4000, CRC(e5490747) SHA1(91de42a562a265e4cfa1788e40985a5b9055a10a) ) ROM_END // Quest of D Oukoku no Syugosya // note: all following CD/DVD discs for server PC, game image from CDV-10026D uploaded via network to satellite Chihiro units ROM_START( qofd3 ) CHIHIRO_BIOS // "Quest of D Ver.3.02" // DVD QOD 3.02 // CDV-10026D DISK_REGION( "gdrom" ) DISK_IMAGE_READONLY( "cdv-10026d", 0, SHA1(b079778f7837100a9b4fa2a536a4efc7817dd2d2) ) // DVD // satellite Chihiro security PIC, label is unknown ROM_REGION( 0x4000, "pic", ROMREGION_ERASEFF) ROM_LOAD("317-xxxx-jpn.pic", 0x00, 0x4000, CRC(bacf6f52) SHA1(72892aba23a540c02d3260be8c68d2b3fa45bdae) ) // "Quest of D Ver. 3.0" // CD QOD3 VERSION UPDATE // CDP-10062 DISK_REGION("update") DISK_IMAGE_READONLY( "cdp-10062", 0, SHA1(abe337cb8782155c4cb92895ba22454a175d479d) ) // CD // "Quest of D Ver. 2.0" // DVD QOD CHECK DISC // CDV-10028 DISK_REGION("check") DISK_IMAGE_READONLY( "cdv-10028", 0, SHA1(9f0f64cb4278cf51a42a21f880cda82b585c63f6) ) // DVD ROM_END ROM_START( gundcb83 ) CHIHIRO_BIOS DISK_REGION( "gdrom" ) DISK_IMAGE_READONLY( "cdv-10030", 0, SHA1(fc4afdd465e397a12a58714ed9c7a35863580869) ) ROM_REGION( 0x4000, "pic", ROMREGION_ERASEFF) //PIC16C621A (317-0484-JPN) //(sticker 253-5508-0484J) ROM_LOAD("317-0484-jpn.pic", 0x00, 0x4000, CRC(308995bb) SHA1(9459ca99bfb5c3cf227821739e7008ae9bd6e710) ) ROM_END ROM_START( gundcb83a ) CHIHIRO_BIOS DISK_REGION( "gdrom" ) DISK_IMAGE_READONLY( "cdv-10031", 0, SHA1(ab165b0c8753c1ab5d9cce82af7ed720a2f83c45) ) ROM_REGION( 0x4000, "pic", ROMREGION_ERASEFF) //PIC16C621A (317-0484-JPN) //(sticker 253-5508-0484J) ROM_LOAD("317-0484-jpn.pic", 0x00, 0x4000, CRC(308995bb) SHA1(9459ca99bfb5c3cf227821739e7008ae9bd6e710) ) ROM_END // Quest of D The Battle Kingdom // note: all following CD/DVD discs for server PC, game image from CDV-10035B uploaded via network to satellite Chihiro units ROM_START( qofdtbk ) CHIHIRO_BIOS // "Quest of D The Battle Kingdom" // DVD QOD VS // CDV-10035B DISK_REGION( "gdrom" ) DISK_IMAGE_READONLY( "cdv-10035b", 0, SHA1(710776b88e7403193c1e0889bbd2d15fc8a92880) ) // DVD // satellite Chihiro security PIC ROM_REGION( 0x4000, "pic", ROMREGION_ERASEFF) //PIC16C621A 317-0506-JPN //(sticker 253-5508-0506J) ROM_LOAD("317-0506-jpn.pic", 0x00, 0x4000, CRC(e105c6c8) SHA1(63e17b330a2f7d30bf0c263b163469f7f8e6a495) ) // "Quest of D The Battle Kingdom" // CD QOD VS VERSION UPDATE // CDP-10078 DISK_REGION("update") DISK_IMAGE_READONLY( "cdp-10078", 0, SHA1(f7dde6a95c8b9087f984f92248c22a3b148ef645) ) // CD // "Quest of D The Battle Kingdom" // CD QOD SERVICE END // CDP-10136 DISK_REGION("serv_end") DISK_IMAGE_READONLY( "cdp-10136", 0, SHA1(3bfb6258bf9c08e1c8056183d02fe8aa3b65db49) ) // CD ROM_END ROM_START( gundcb83b ) CHIHIRO_BIOS DISK_REGION( "gdrom" ) DISK_IMAGE_READONLY( "cdv-10037b", 0, SHA1(f25cb967127d06bef24c64c731c087fc44c1face) ) ROM_REGION( 0x4000, "pic", ROMREGION_ERASEFF) //PIC16C621A (317-0484-JPN) //(sticker 253-5508-0484J) ROM_LOAD("317-0484-jpn.pic", 0x00, 0x4000, CRC(308995bb) SHA1(9459ca99bfb5c3cf227821739e7008ae9bd6e710) ) ROM_END /* Main board */ /*Chihiro*/ GAME( 2002, chihiro, 0, chihiro_base, chihiro, chihiro_state, empty_init, ROT0, "Sega", "Chihiro Bios", MACHINE_NO_SOUND|MACHINE_NOT_WORKING|MACHINE_IS_BIOS_ROOT ) /* GDX-xxxx (Sega GD-ROM games) */ /* 0001 */ GAME( 2002, hotd3, chihiro, chihirogd, chihiro, chihiro_state, empty_init, ROT0, "Sega / Wow Entertainment", "The House of the Dead III (GDX-0001)", MACHINE_NO_SOUND|MACHINE_NOT_WORKING ) // 0002 GAME( 2003, crtaxhro, crtaxihr, chihirogd, chihiro, chihiro_state, empty_init, ROT0, "Sega / Hitmaker", "Crazy Taxi High Roller (GDX-0002)", MACHINE_NO_SOUND|MACHINE_NOT_WORKING ) // 0002A GAME( 2003, crtaxhra, crtaxihr, chihirogd, chihiro, chihiro_state, empty_init, ROT0, "Sega / Hitmaker", "Crazy Taxi High Roller (Rev A) (GDX-0002A)", MACHINE_NO_SOUND|MACHINE_NOT_WORKING ) /* 0002B */ GAME( 2003, crtaxihr, chihiro, chihirogd, chihiro, chihiro_state, empty_init, ROT0, "Sega / Hitmaker", "Crazy Taxi High Roller (Rev B) (GDX-0002B)", MACHINE_NO_SOUND|MACHINE_NOT_WORKING ) // 0003 GAME( 2003, vcop3o, vcop3, chihirogd, chihiro, chihiro_state, empty_init, ROT0, "Sega", "Virtua Cop 3 (GDX-0003)", MACHINE_NO_SOUND|MACHINE_NOT_WORKING ) /* 0003A */ GAME( 2003, vcop3a, vcop3, chihirogd, chihiro, chihiro_state, empty_init, ROT0, "Sega", "Virtua Cop 3 (Rev A) (GDX-0003A)", MACHINE_NO_SOUND|MACHINE_NOT_WORKING ) /* 0003B */ GAME( 2003, vcop3, chihiro, chihirogd, chihiro, chihiro_state, empty_init, ROT0, "Sega", "Virtua Cop 3 (Rev B) (GDX-0003B)", MACHINE_NO_SOUND|MACHINE_NOT_WORKING ) // 0004 GAME( 2003, outr2o, outr2, chihirogd, chihiro, chihiro_state, empty_init, ROT0, "Sega", "OutRun 2 (GDX-0004)", MACHINE_NO_SOUND|MACHINE_NOT_WORKING|MACHINE_SUPPORTS_SAVE ) /* 0004A */ GAME( 2003, outr2, chihiro, chihirogd, chihiro, chihiro_state, empty_init, ROT0, "Sega", "OutRun 2 (Rev A) (GDX-0004A)", MACHINE_NO_SOUND|MACHINE_NOT_WORKING|MACHINE_SUPPORTS_SAVE ) // 0005 GAME( 2004, sgolcnpt, chihiro, chihirogd, chihiro, chihiro_state, empty_init, ROT0, "Sega", "Sega Golf Club Network Pro Tour (GDX-0005)", MACHINE_NO_SOUND|MACHINE_NOT_WORKING|MACHINE_SUPPORTS_SAVE ) // 0006 GAME( 2004, mj2o, mj2, chihirogd, chihiro, chihiro_state, empty_init, ROT0, "Sega", "Sega Network Taisen Mahjong MJ 2 (GDX-0006)", MACHINE_NO_SOUND|MACHINE_NOT_WORKING ) // 0006A GAME( 2004, mj2a, mj2, chihirogd, chihiro, chihiro_state, empty_init, ROT0, "Sega", "Sega Network Taisen Mahjong MJ 2 (Rev A) (GDX-0006A)", MACHINE_NO_SOUND|MACHINE_NOT_WORKING ) // 0006B GAME( 2004, mj2b, mj2, chihirogd, chihiro, chihiro_state, empty_init, ROT0, "Sega", "Sega Network Taisen Mahjong MJ 2 (Rev B) (GDX-0006B)", MACHINE_NO_SOUND|MACHINE_NOT_WORKING ) /* 0006C */ GAME( 2004, mj2c, mj2, chihirogd, chihiro, chihiro_state, empty_init, ROT0, "Sega", "Sega Network Taisen Mahjong MJ 2 (Rev C) (GDX-0006C)", MACHINE_NO_SOUND|MACHINE_NOT_WORKING ) // 0006D GAME( 2004, mj2d, mj2, chihirogd, chihiro, chihiro_state, empty_init, ROT0, "Sega", "Sega Network Taisen Mahjong MJ 2 (Rev D) (GDX-0006D)", MACHINE_NO_SOUND|MACHINE_NOT_WORKING ) // 0006E GAME( 2005, mj2e, mj2, chihirogd, chihiro, chihiro_state, empty_init, ROT0, "Sega", "Sega Network Taisen Mahjong MJ 2 (Rev E) (GDX-0006E)", MACHINE_NO_SOUND|MACHINE_NOT_WORKING ) /* 0006F */ GAME( 2005, mj2f, mj2, chihirogd, chihiro, chihiro_state, empty_init, ROT0, "Sega", "Sega Network Taisen Mahjong MJ 2 (Rev F) (GDX-0006F)", MACHINE_NO_SOUND|MACHINE_NOT_WORKING ) /* 0006G */ GAME( 2005, mj2, chihiro, chihirogd, chihiro, chihiro_state, empty_init, ROT0, "Sega", "Sega Network Taisen Mahjong MJ 2 (Rev G) (GDX-0006G)", MACHINE_NO_SOUND|MACHINE_NOT_WORKING ) /* 0007 */ GAME( 2003, ollie, chihiro, chihirogd, chihiro, chihiro_state, empty_init, ROT0, "Sega / Amusement Vision", "Ollie King (GDX-0007)", MACHINE_NO_SOUND|MACHINE_NOT_WORKING ) // 0008 GAME( 2004, wangmidjo,wangmid, chihirogd, chihiro, chihiro_state, empty_init, ROT0, "Namco", "Wangan Midnight Maximum Tune (Japan) (GDX-0008)", MACHINE_NO_SOUND|MACHINE_NOT_WORKING ) // 0008A GAME( 2004, wangmidja,wangmid, chihirogd, chihiro, chihiro_state, empty_init, ROT0, "Namco", "Wangan Midnight Maximum Tune (Japan, Rev A) (GDX-0008A)", MACHINE_NO_SOUND|MACHINE_NOT_WORKING ) /* 0008B */ GAME( 2004, wangmidj, wangmid, chihirogd, chihiro, chihiro_state, empty_init, ROT0, "Namco", "Wangan Midnight Maximum Tune (Japan, Rev B) (GDX-0008B)", MACHINE_NO_SOUND|MACHINE_NOT_WORKING ) // 0009 GAME( 2004, wangmido, wangmid, chihirogd, chihiro, chihiro_state, empty_init, ROT0, "Namco", "Wangan Midnight Maximum Tune (Export) (GDX-0009)", MACHINE_NO_SOUND|MACHINE_NOT_WORKING ) // 0009A GAME( 2004, wangmida, wangmid, chihirogd, chihiro, chihiro_state, empty_init, ROT0, "Namco", "Wangan Midnight Maximum Tune (Export, Rev A) (GDX-0009A)", MACHINE_NO_SOUND|MACHINE_NOT_WORKING ) /* 0009B */ GAME( 2004, wangmid, chihiro, chihirogd, chihiro, chihiro_state, empty_init, ROT0, "Namco", "Wangan Midnight Maximum Tune (Export, Rev B) (GDX-0009B)", MACHINE_NO_SOUND|MACHINE_NOT_WORKING ) // 0010 Sega Golf Club Network Pro Tour 2005 /* 0010C */ GAME( 2004, scg05nt, chihiro, chihirogd, chihiro, chihiro_state, empty_init, ROT0, "Sega", "Sega Golf Club Network Pro Tour 2005 (Rev C) (GDX-0010C)", MACHINE_NO_SOUND|MACHINE_NOT_WORKING ) /* 0011 */ GAME( 2004, outr2stjo,outr2st, chihirogd, chihiro, chihiro_state, empty_init, ROT0, "Sega", "OutRun 2 Special Tours (Japan) (GDX-0011)", MACHINE_NO_SOUND|MACHINE_NOT_WORKING|MACHINE_SUPPORTS_SAVE ) /* 0011A */ GAME( 2004, outr2stj, outr2st, chihirogd, chihiro, chihiro_state, empty_init, ROT0, "Sega", "OutRun 2 Special Tours (Japan, Rev A) (GDX-0011A)", MACHINE_NO_SOUND|MACHINE_NOT_WORKING|MACHINE_SUPPORTS_SAVE ) /* 0012 */ GAME( 2004, ghostsqo, ghostsqu, chihirogd, chihiro, chihiro_state, empty_init, ROT0, "Sega", "Ghost Squad (GDX-0012)", MACHINE_NO_SOUND|MACHINE_NOT_WORKING ) /* 0012A */ GAME( 2004, ghostsqu, chihiro, chihirogd, chihiro, chihiro_state, empty_init, ROT0, "Sega", "Ghost Squad (Rev A) (GDX-0012A)", MACHINE_NO_SOUND|MACHINE_NOT_WORKING ) /* 0013 */ GAME( 2005, gundamos, chihiro, chihirogd, chihiro, chihiro_state, empty_init, ROT0, "Banpresto", "Gundam Battle Operating Simulator (GDX-0013)", MACHINE_NO_SOUND|MACHINE_NOT_WORKING ) /* 0014 */ GAME( 2004, outr2sto, outr2st, chihirogd, chihiro, chihiro_state, empty_init, ROT0, "Sega", "OutRun 2 Special Tours (GDX-0014)", MACHINE_NO_SOUND|MACHINE_NOT_WORKING ) /* 0014A */ GAME( 2004, outr2st, chihiro, chihirogd, chihiro, chihiro_state, empty_init, ROT0, "Sega", "OutRun 2 Special Tours (Rev A) (GDX-0014A)", MACHINE_NO_SOUND|MACHINE_NOT_WORKING ) /* 0015 */ GAME( 2005, wangmid2j,wangmid2, chihirogd, chihiro, chihiro_state, empty_init, ROT0, "Namco", "Wangan Midnight Maximum Tune 2 (Japan) (GDX-0015)", MACHINE_NO_SOUND|MACHINE_NOT_WORKING ) /* 0015A */ GAME( 2005, wangmid2ja,wangmid2,chihirogd, chihiro, chihiro_state, empty_init, ROT0, "Namco", "Wangan Midnight Maximum Tune 2 (Japan, Rev A) (GDX-0015A)", MACHINE_NO_SOUND|MACHINE_NOT_WORKING ) /* 0016 */ GAME( 2005, wangmid2o,wangmid2, chihirogd, chihiro, chihiro_state, empty_init, ROT0, "Namco", "Wangan Midnight Maximum Tune 2 (Export) (GDX-0016)", MACHINE_NO_SOUND|MACHINE_NOT_WORKING ) /* 0016A */ GAME( 2005, wangmid2, chihiro, chihirogd, chihiro, chihiro_state, empty_init, ROT0, "Namco", "Wangan Midnight Maximum Tune 2 (Export, Rev A) (GDX-0016A)", MACHINE_NO_SOUND|MACHINE_NOT_WORKING ) // 0017 GAME( 2005, mj3o, mj3, chihirogd, chihiro, chihiro_state, empty_init, ROT0, "Sega", "Sega Network Taisen Mahjong MJ 3 (GDX-0017)", MACHINE_NO_SOUND|MACHINE_NOT_WORKING ) // 0017A GAME( 2005, mj3a, mj3, chihirogd, chihiro, chihiro_state, empty_init, ROT0, "Sega", "Sega Network Taisen Mahjong MJ 3 (Rev A) (GDX-0017A)", MACHINE_NO_SOUND|MACHINE_NOT_WORKING ) // 0017B GAME( 2005, mj3b, mj3, chihirogd, chihiro, chihiro_state, empty_init, ROT0, "Sega", "Sega Network Taisen Mahjong MJ 3 (Rev B) (GDX-0017B)", MACHINE_NO_SOUND|MACHINE_NOT_WORKING ) /* 0017C */ GAME( 2005, mj3c, mj3, chihirogd, chihiro, chihiro_state, empty_init, ROT0, "Sega", "Sega Network Taisen Mahjong MJ 3 (Rev C) (GDX-0017C)", MACHINE_NO_SOUND|MACHINE_NOT_WORKING ) /* 0017D */ GAME( 2006, mj3d, mj3, chihirogd, chihiro, chihiro_state, empty_init, ROT0, "Sega", "Sega Network Taisen Mahjong MJ 3 (Rev D) (GDX-0017D)", MACHINE_NO_SOUND|MACHINE_NOT_WORKING ) // 0017E GAME( 2006, mj3e, mj3, chihirogd, chihiro, chihiro_state, empty_init, ROT0, "Sega", "Sega Network Taisen Mahjong MJ 3 (Rev E) (GDX-0017E)", MACHINE_NO_SOUND|MACHINE_NOT_WORKING ) /* 0017F */ GAME( 2006, mj3, chihiro, chihirogd, chihiro, chihiro_state, empty_init, ROT0, "Sega", "Sega Network Taisen Mahjong MJ 3 (Rev F) (GDX-0017F)", MACHINE_NO_SOUND|MACHINE_NOT_WORKING ) // 0018 GAME( 2005, scg06nto, scg06nt, chihirogd, chihiro, chihiro_state, empty_init, ROT0, "Sega", "Sega Club Golf 2006 Next Tours (GDX-0018)", MACHINE_NO_SOUND|MACHINE_NOT_WORKING ) /* 0018A */ GAME( 2005, scg06nt, chihiro, chihirogd, chihiro, chihiro_state, empty_init, ROT0, "Sega", "Sega Club Golf 2006 Next Tours (Rev A) (GDX-0018A)", MACHINE_NO_SOUND|MACHINE_NOT_WORKING ) // 0019 Firmware Update For MJ 3 // 0020 Sega Golf Club 2006 // 0021 GAME( 2006, mj3evoo, mj3evo, chihirogd, chihiro, chihiro_state, empty_init, ROT0, "Sega", "Sega Network Taisen Mahjong MJ 3 Evolution (GDX-0021)", MACHINE_NO_SOUND|MACHINE_NOT_WORKING ) /* 0021A */ GAME( 2007, mj3evoa, mj3evo, chihirogd, chihiro, chihiro_state, empty_init, ROT0, "Sega", "Sega Network Taisen Mahjong MJ 3 Evolution (Rev A) (GDX-0021A)", MACHINE_NO_SOUND|MACHINE_NOT_WORKING ) /* 0021B */ GAME( 2007, mj3evo, chihiro, chihirogd, chihiro, chihiro_state, empty_init, ROT0, "Sega", "Sega Network Taisen Mahjong MJ 3 Evolution (Rev B) (GDX-0021B)", MACHINE_NO_SOUND|MACHINE_NOT_WORKING ) // 0022 Taisen Mahjong MJ 3 Evolution Test Version /* 0023 */ GAME( 2006, mj3evoup, chihiro, chihirogd, chihiro, chihiro_state, empty_init, ROT0, "Sega", "Sega Network Taisen Mahjong MJ 3 Evolution Firmware Update (GDX-0023)", MACHINE_NO_SOUND|MACHINE_NOT_WORKING ) // 0024 GAME( 2009, ccfboxo, ccfboxa, chihirogd, chihiro, chihiro_state, empty_init, ROT0, "Sega", "Chihiro Firmware Update For Compact Flash Box (GDX-0024)", MACHINE_NO_SOUND|MACHINE_NOT_WORKING ) /* 0024A */ GAME( 2009, ccfboxa, chihiro, chihirogd, chihiro, chihiro_state, empty_init, ROT0, "Sega", "Chihiro Firmware Update For Compact Flash Box (4.01) (GDX-0024A)", MACHINE_NO_SOUND|MACHINE_NOT_WORKING ) /* 611-xxxx Sega (workshop/factory?) GD-ROMs */ /* 0028A */ GAME( 2003, cregchg, chihiro, chihirogd, chihiro, chihiro_state, empty_init, ROT0, "Sega", "Chihiro Change Region GD USA (611-0028A)", MACHINE_NO_SOUND|MACHINE_NOT_WORKING ) /* CDV-1xxxx (Sega network CD-ROM and DVD-ROM games) */ /* 0005C */ GAME( 2004, questofd, chihiro, chihirogd, chihiro, chihiro_state, empty_init, ROT0, "Sega", "Quest of D (CDV-10005C)", MACHINE_NO_SOUND|MACHINE_NOT_WORKING ) /* 0010 */ GAME( 2005, gundcb79, chihiro, chihirogd, chihiro, chihiro_state, empty_init, ROT0, "Banpresto", "Mobile Suit Gundam 0079 Card Builder (CDV-10010)", MACHINE_NO_SOUND|MACHINE_NOT_WORKING ) /* 0024B */ GAME( 2006, gundcb79a,gundcb79, chihirogd, chihiro, chihiro_state, empty_init, ROT0, "Banpresto", "Mobile Suit Gundam 0079 Card Builder Ver.2.02 (CDV-10024B)", MACHINE_NO_SOUND|MACHINE_NOT_WORKING ) /* 0026D */ GAME( 2007, qofd3, chihiro, chihirogd, chihiro, chihiro_state, empty_init, ROT0, "Sega", "Quest of D Oukoku no Syugosya Ver. 3.02 (CDV-10026D)", MACHINE_NO_SOUND|MACHINE_NOT_WORKING ) /* 0030 */ GAME( 2007, gundcb83, chihiro, chihirogd, chihiro, chihiro_state, empty_init, ROT0, "Banpresto", "Mobile Suit Gundam 0083 Card Builder (CDV-10030)", MACHINE_NO_SOUND|MACHINE_NOT_WORKING ) /* 0031 */ GAME( 2007, gundcb83a,gundcb83, chihirogd, chihiro, chihiro_state, empty_init, ROT0, "Banpresto", "Mobile Suit Gundam 0083 Card Builder Check Disk (CDV-10031)", MACHINE_NO_SOUND|MACHINE_NOT_WORKING ) /* 0035B */ GAME( 2007, qofdtbk, chihiro, chihirogd, chihiro, chihiro_state, empty_init, ROT0, "Sega", "Quest of D The Battle Kingdom (CDV-10035B)", MACHINE_NO_SOUND|MACHINE_NOT_WORKING ) /* 0037B */ GAME( 2008, gundcb83b,gundcb83, chihirogd, chihiro, chihiro_state, empty_init, ROT0, "Banpresto", "Mobile Suit Gundam 0083 Card Builder Ver.2.10 (CDV-10037B)", MACHINE_NO_SOUND|MACHINE_NOT_WORKING )