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Converted documentation to english using Chrome's translate function.
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doc/converter_en.txt
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-------------------------------------------------- ----------------------------
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SCSI Target Emulator RaSCSI for Raspberry Pi
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Powered by XM6 TypeG Technology.
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Copyright (C) 2016-2020 GIMONS
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-------------------------------------------------- ----------------------------
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□ Necessity of conversion board
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SCSI divides 5V at 220Ω and 330Ω at TTL level (in the case of passive terminator)
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As a result, the state where a voltage of less than 3 V is applied to each signal line becomes a steady state (signal-wise negate)
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It has become.
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Initiator side or target side tries to assert signal (=0V)
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Then, a total current of 5000÷220×2=45mA flows from both terminators.
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If you look at the data sheet of MB89352 which is the SCSI controller of X68000,
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The current is Iol48mA).
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The RPI GPIO cannot absorb such a large sink current. Electrically secure connection
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To do this, it is necessary to make a conversion board with a general-purpose logic IC. General logic
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It is an open collector such as 74LS06 or 07 that can withstand a sink current of 48 mA with IC.
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Use the high power type.
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The author does basic SCSI direction control with 74HC541×3,74HC126×1,74HC04×1
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I tried to build a circuit to drive the bus using 74LS07 × 3 and it works without problems
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I confirmed that.
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If you use 74LS641-1 which is a derivative of 74LS641, you can configure the circuit simply.
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Would be Unlike normal products, the sink current is compatible with 48 mA, so it is necessary to use 74LS07
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there is no. But availability is not so good.
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□ Circuit board of conversion board
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The circuit design is put in the same folder.
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・Target.png
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Conversion board circuit diagram for using SCSI target mode. It is a basic function
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If you want to emulate HDD or MO, you can make something equivalent to this circuit diagram.
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Would be It also uses the fewest GPIO pins.
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If you do not change the pin assignment, it will be included in the standard directory of RaSCSI
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It is possible to use the binary.
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・Fullspec.png
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It is a conversion board circuit diagram that can use SCSI target mode and initiator mode.
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All 74LS641-1 direction control is performed from RaSCSI, so use 3 extra GPIO pins
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I will do it.
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Customize pin assignments to PIN_TAD, PIN_IND, PIN_DTD respectively
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Now you need to set 6,7,8 and compile. Pin assigned
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See Customization.
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□ How to get existing ones
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Recently, you have created a conversion board for RaSCSI mainly through the Twitter area.
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There are people who are. Introducing here
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Is omitted. The timing is undecided, but we plan to distribute the official version for a fee.
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□ Customize pin assignment
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The signal control logic and pin assignment of GPIO are defined in gpiobus.h.
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As a customization example, the following two conversion board definition examples are prepared in gpiobus.h.
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Compiled binaries are also included in the distribution.
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・Aibomu version
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・GAMERnium version
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□ How to customize
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-This is a message when starting up RaSCSI.
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CONNECT_DESC
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・Select the signal control mode.
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SIGNAL_CONTROL_MODE
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0: SCSI logical specification
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Conversion board using 74LS641-1 etc. directly connected or published on HP
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Arthurt: 0V
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Negative: Open collector output (disconnect from bus)
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1: Negative logic specification (when using the conversion board for negative logic -> SCSI logic)
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There are no conversion boards with this specification at this time
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Arthurt: 0V -> (CONVERT) -> 0V
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Negative: 3.3V -> (CONVERT) -> Open collector output
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2: Positive logic specification (when using the conversion board for positive logic -> SCSI logic)
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RaSCSI Adapter Rev.C @132sync etc.
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Arthurt: 3.3V -> (CONVERT) -> 0V
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Negative: 0V -> (CONVERT) -> Open collector output
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・Control signal pin assignment
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PIN_ACT: The pin number of the signal that indicates the status that the SCSI command is being processed.
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PIN_ENB: Pin number of the signal that indicates the valid signal from start to finish.
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PIN_TAD: Pin number of the signal that indicates the input/output direction of the target signal (BSY,IO,CD,MSG,REG).
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PIN_IND: Pin number of the signal indicating the input/output direction of the initiator signal (SEL, ATN, RST, ACK).
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PIN_DTD: Pin number of the signal that indicates the input/output direction of the data signal (DT0...DT7,DP).
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・Control signal output logic
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0V:FALSE Specify with 3.3V:TRUE.
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ACT_ON: PIN_ACT signal logic.
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ENB_ON: Logic of PIN_ENB signal.
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TAD_IN:PIN_TAD This is the logic in the input direction.
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IND_IN:PIN_ENB Logic in the input direction.
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DTD_IN:PIN_ENB Logic in the input direction.
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・ SCSI signal pin assignment
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PIN_DT0 to PIN_SEL: Each is the pin number of the SCSI signal.
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□ How to compile
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・Executable files (rascsi, rasctl)
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Fix gpiobus.h
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make clean
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make
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[EOF]
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doc/rascsi_en.txt
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doc/rascsi_en.txt
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-------------------------------------------------- ----------------------------
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SCSI Target Emulator RaSCSI (*^..^*)
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for Raspberry Pi
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Powered by XM6 TypeG Technology.
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Copyright (C) 2016-2020 GIMONS
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-------------------------------------------------- ----------------------------
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□ What is RaSCSI
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RaSCSI is a SCSI device (hard disk, MO, CD-ROM) that operates on the Raspberry Pi.
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It is a virtual emulator. Use with SHARP X68000 that adopts SCSI
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It was developed for that purpose. Raspberry Pi with RaSCSI installed on the X68000 SCSI
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Simply connect it to the connector and it will be recognized as a physical SCSI device.
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In addition to the X68000, it may be possible to use it with a retro PC such as FM TOWNS or PC 98 that adopted SCSI.
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May. The author has confirmed that it works with FM TOWNS and PC9821Ce.
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RaSCSI is a software that emulates SCSI devices plus Raspberry Pi
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Refers to the general term for the mechanism that converts a GPIO connector into a SCSI connector.
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□ Operating environment
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(1) Raspberry Pi
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Raspberry Pi Zero
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Raspberry Pi Zero W
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Raspberry Pi Zero WH
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Raspberry Pi 2 Model B
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Raspberry Pi 3 Model B (recommended)
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Raspberry Pi 3 Model A+
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Raspberry Pi 3 Model B+
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Raspberry Pi 4 Model B
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Performance may be a little unstable with Zero/Zero W/Zero WH.
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3 Model A+/3 Model B+/4 Model B has high performance, but CPU clock is affected by heat.
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It may fluctuate, so it will be necessary to take measures.
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(2) OS
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Developed and tested by RASPBIAN BUSTER.
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RaSCSI uses GPIO to control SCSI signals, so latency is as low as possible.
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Must be used in the state of. Therefore, it is recommended to use it in CUI mode.
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To do.
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□ Connection method with SCSI connector
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Since the situation has become complicated, we provide information on the RaSCSI home page.
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Please refer to the official website at the end of this document.
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□ Handout
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The executable file, the document, and the source code are stored in the distributed archive.
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It is divided and included in the directory.
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bin/ ・・・ Executable file
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raspberrypi/ ・・・ RPI program
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rascsi.tar.gz ・・・ The tar+gzip of the executable file.
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x68k/ ・・・ Dedicated driver for X68000
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RASDRIVER.XDF... A floppy image containing two drivers
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RASDRIVER.HDS... A SCSI HD image containing two drivers
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RASDRIVER.HDF... SASI HD image containing two drivers
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doc/ ・・・Documents
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rascsi.txt ・・・ This document
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x68k.txt ・・・ Description of X68000 specific functions
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converter.txt ・・・ Description of converter board
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pinassign.png ・・・ Pin assignment diagram
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target.png ・・・ Conversion board circuit pattern (target mode)
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fullspec.png ・・・Conversion board circuit pattern (full spec)
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src/ ・・・ Source code
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raspberrypi/ ・・・ Set of program source for RPI
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x68k/ ・・・ Set of programs for X68000
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The program used in RPI is rascsi.tar.gz, so transfer it to RPI and decompress it.
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Please. It is recommended to unzip on RPI to maintain permissions etc.
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rascsi.tar.gz contains standard, fullspec, aibom and gamernium directories.
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I am.
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Executable file in the standard directory when using a direct connection cable or direct connection board
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Please use.
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Similarly, in the case of the conversion board described as the full spec version, in the fullspec directory
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I will use one (I think that it works even if it is directly connected).
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For the aibom and gamernium directories, use the conversion boards of "Aibomu version" and "GAMERnium version".
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It is when using.
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The driver for X68000 includes the following two in RASDRIVER.XDF or RASDRIVER.HDS
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It is
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RASDRV.SYS ・・・ Host drive driver
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RASETHER.SYS ・・・ Ethernet driver
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□ How to use RASCI main unit (rascsi)
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When ID is specified
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rascsi [-IDn FILE] ...
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n:0 ~ 7
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When specifying HD (compatible with HD specification of X68000 SASI machine)
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rascsi [-HDn FILE] ...
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n: 0 ~ 15
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Since root authority is required, it is necessary to start with sudo etc.
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If you add -h to the option, a simple HELP will be displayed
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Usage: rascsi [-IDn FILE] ...
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n is SCSI identification number(0-7).
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FILE is disk image file.
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Usage: rascsi [-HDn FILE] ...
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n is X68000 SASI HD number(0-15).
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FILE is disk image file.
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Image type is detected based on file extension.
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hdf: SASI HD image(XM6 SASI HD image)
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hds: SCSI HD image(XM6 SCSI HD image)
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hdn: SCSI HD image (NEC GENUINE)
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hdi: SCSI HD image(Anex86 HD image)
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nhd: SCSI HD image(T98Next HD image)
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hda: SCSI HD image(APPLE GENUINE)
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mos: SCSI MO image(XM6 SCSI MO image)
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iso: SCSI CD image (ISO 9660 image)
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In the argument, one SCSI (SASI) device can be specified by a pair of -IDn or -HDn and FILE.
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-The number after the ID is the SCSI (SASI) ID. You can specify 0-7 as the ID, but usually the retro PC body
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I think you are using ID7 etc. as the initiator. In that case, specify 0-6
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It will be.
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FILE is the file path of the virtual disk image. The image file name has an extension
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Is required. The type of HD, MO, CD is determined by the extension.
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Example) When you specify HDIMAGE0.HDS for SCSI ID0 and HDIMAGE1.HDS for ID1 and start up,
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sudo rascsi -ID0 HDIMAGE0.HDS -ID1 HDIMAGE1.HDS
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When you finish, press CTRL+C to stop.
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If it is started in the background, is the kill command an INT signal to the relevant process?
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It ends by sending a HUP signal.
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After starting, rascsi opens a socket (6868 port) and receives external management commands.
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It is ready to be attached. Therefore, rascsi has already started as another process.
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If so, the boot will abort with an error message.
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□ How to use the management tool (rasctl)
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We provide a management tool called rasctl from version 1.10. This is the rascsi process
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Disk is running in the background (waiting for connection on port 6868)
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It is possible to issue operation commands. The command line is as follows.
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rasctl -i ID [-u UNIT] [-c CMD] [-t TYPE] [-f FILE]
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ID: SCSI ID (0 to 7)
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UNIT: Unit number (0 or 1)
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CMD: Operation command
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attach: attach disk
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detach: detach disk
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insert: insert media (MO or CD only)
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eject: Eject media (MO or CD only)
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protect: Write protect the media (MO only)
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TYPE: Disc type
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hd: Hard disk (SASI/SCSI)
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mo: MO (magneto-optical disk)
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cd: CDROM (CDROM drive)
|
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bridge: Bridge device
|
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FILE: Path of disk image file
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|
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ID is required. UNIT defaults to 0 (default is 0 for SCSI).
|
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CMD is interpreted as attach when omitted. TYPE is the extension of FILE when the command is attach
|
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It will automatically judge from. FILE has a different extension if TYPE is explicitly specified.
|
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does not matter. Basic interpretation of CMD and TYPE is case insensitive. Only the first letter
|
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Judging.
|
||||
|
||||
Command example
|
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rasctl -i 0 -f HDIMAGE0.HDS
|
||||
|
||||
Is 0, the SCSI ID is 0. CMD is attach by default and TYPE is determined from the extension HDS
|
||||
Therefore, it is supposed to be hd and it is equivalent to the option specification when starting rascsi.
|
||||
|
||||
If only -l option is specified to check the current status, the device list is displayed.
|
||||
Will be done. The command line is as follows.
|
||||
|
||||
rasctl -l
|
||||
|
||||
You do not need root privileges to start rasctl itself.
|
||||
|
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□ How to use Disk Dump Tool (rasdump)
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Sample program for direct connection or direct connection board, or full-spec board.
|
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As the name suggests, it dumps (optionally restores) the image of SCSI HDD or MO.
|
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Specify your own ID as BID. If omitted, 7 is used.
|
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|
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rasdump -i ID [-b BID] -f FILE [-r]
|
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ID: SCSI ID of the target device
|
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BID: RaSCSI's own SCSI ID
|
||||
FILE: dump file name
|
||||
-r: Restore mode
|
||||
|
||||
Since it is a sample, only the minimum necessary processing is implemented, so do not modify it
|
||||
Please use.
|
||||
|
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□ How to use SASI dedicated disk dump tool (sasidump)
|
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A dump tool created for SASI based on rasdump.
|
||||
Dump (optionally restore) the SASI HD image.
|
||||
|
||||
sasidump -i ID [-u UT] [-b BSIZE] -c COUNT -f FILE [-r]
|
||||
ID: SASI ID of the target device
|
||||
UT: UNIT ID of the target device
|
||||
BSIZE: Block size (default 512)
|
||||
COUNT: Number of blocks
|
||||
FILE: dump file name
|
||||
-r: Restore mode
|
||||
|
||||
□ When compiling the executable file from the source
|
||||
Standard edition
|
||||
make CONNECT_TYPE=STANDARD
|
||||
|
||||
Full spec version
|
||||
make CONNECT_TYPE=FULLSPEC
|
||||
|
||||
Aibomu version
|
||||
make CONNECT_TYPE=AIBOM
|
||||
|
||||
GAMERnium version
|
||||
make CONNECT_TYPE=GAMERNIUM
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□ Supported disk images
|
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(1) SCSI hard disk
|
||||
HDS file format (extension HDS/HDN/HDI/NHD/HDA)
|
||||
The file size can be any size within the range of 10MB to 4095MB (in 512-byte units)
|
||||
|
||||
If the extension is "HDN", a genuine hard disk for NEC genuine 55 board (PC-9801-55)
|
||||
Perform emulation. For information returned by INQUIRY and MODE SENSE size
|
||||
There is a difference.
|
||||
|
||||
If the extension is "HDI" or "NHD", the PC98 emulator is Annex86 or T98Next.
|
||||
It is intended to use a SCSI hard disk image. Some information as in HDN
|
||||
Is converted for NEC.
|
||||
|
||||
If the extension is "HDA", APPLE genuine hard disk emulation is performed.
|
||||
There is a difference in the information returned by INQUIRY and MODE SENSE.
|
||||
|
||||
(2) SASI hard disk
|
||||
HDF file format (extension HDF)
|
||||
File size is either 10441728 bytes, 20748288 bytes, or 41496576 bytes
|
||||
We recommend 10MB drive, 20MB drive and 40MB drive respectively.
|
||||
Any file size from 10M to 512M can be mounted in 256-byte units.
|
||||
|
||||
Images from version 1.46 to 22437888 bytes are for MZ-2500/MZ-2800 MZ-1F23
|
||||
Recognized as a 20MB image (special image with a block size of 1024).
|
||||
|
||||
(3) SCSI magneto-optical (MO) disk
|
||||
MOS file format (extension MOS)
|
||||
File size is one of the following four types:
|
||||
128MB type (127398912 bytes)
|
||||
230MB type (228518400 bytes)
|
||||
540MB type (533248000 bytes)
|
||||
640MB type (635600896 bytes)
|
||||
128MB, 230MB, 540MB is 512 bytes/sector and 640MB is 2048 bytes/sector.
|
||||
|
||||
(4) SCSI CD-ROM disk
|
||||
ISO file format (extension ISO, ISO9660 solid image)
|
||||
Record in a file containing only data and in RAW format in mode 1 (2048 bytes/sector)
|
||||
Both files are supported.
|
||||
|
||||
□ Disk image creation
|
||||
RaSCSI itself is a derivative of the XM6 TypeG, an X68000 emulator. Therefore the disc
|
||||
It is assumed that the image is created from the "Tools" menu of XM6 TypeG.
|
||||
Of course, you can also create an empty image file with dd etc. according to the specifications explained above.
|
||||
Is possible.
|
||||
|
||||
Example) When creating a 100 MB HDS image (empty file)
|
||||
|
||||
dd if=/dev/zero of=HARDDISK.HDS bs=512 count=204800
|
||||
|
||||
□ Operation record
|
||||
The author's development environment X68000 PRO (built-in SASI/genuine SCSI board), X68030 built-in SCSI,
|
||||
We have confirmed the operation with the XVI Compact built-in SCSI. It also worked on Mach-2.
|
||||
|
||||
Since there were other operation reports on the first generation X68000, ACE, EXPERT, XVI, PRO2, SUPER, etc.,
|
||||
The X68000 series should be fine.
|
||||
|
||||
For other retro PCs, FM TOWNS series, Apple Macintosh, MSX (using MEGA-SCSI)
|
||||
There is an operation report in. There are many reports that the PC98 series worked, but
|
||||
Some SCSI boards do not even work at all.
|
||||
|
||||
□ How to use
|
||||
If you are using an X68000 emulator such as XM6, HDD that is built by the emulator
|
||||
You can connect to the actual X68000 machine by transferring the image to the Raspberry Pi by FTP etc.
|
||||
The reverse is also true, and the HDD image that stores the files that exist on the actual machine is FTPed to the PC, etc.
|
||||
You can use it in the emulator by transferring with.
|
||||
|
||||
□ License
|
||||
RaSCSI is software distributed as is "AS IS".
|
||||
|
||||
That is, we do not take any responsibility for any damages that the user receives. Soft again
|
||||
We are not responsible for fixing any defects or defects in the software.
|
||||
|
||||
There is a risk that the Raspberry Pi and retro PC will break down by using RaSCSI.
|
||||
Please challenge at your own risk.
|
||||
|
||||
As with XM6 TypeG, we are not allowed to distribute it on other than my HP due to the nature of experimental results disclosure.
|
||||
|
||||
As it inherits the license terms of XM6, introduction in magazines/books requires prior permission.
|
||||
In the first place, I think only a limited number of people will respond to SCSI in 2019.
|
||||
|
||||
□About distribution of conversion boards
|
||||
If you want to distribute the conversion board for a fee, it is not necessary to obtain permission from the author as long as you follow the conditions below.
|
||||
There is none. It is important to provide enough information to the user who purchased the board.
|
||||
Please understand.
|
||||
|
||||
1.Distribution price
|
||||
Board production cost + parts cost + transportation cost + (general social convention) fee.
|
||||
|
||||
2. Schematic
|
||||
Please provide the buyer with the schematic. Simultaneously with board distribution or separately from homepage
|
||||
There are no restrictions on the means of downloading.
|
||||
|
||||
3. Operation verification
|
||||
Operation verification of the X68000 actual machine environment is mandatory. If you can not get the real machine X68000
|
||||
You may ask the user to cooperate with the verification. Operation verification is other than startup confirmation
|
||||
Please write and load test. Verification results are published together with the environment in which they were used
|
||||
please do it.
|
||||
|
||||
□ About conversion board (official version)
|
||||
It has been distributed on BOOTH since March 2019 (it is irregular because the number is limited).
|
||||
|
||||
□ Public homepage
|
||||
http://retropc.net/gimons/rascsi/
|
||||
|
||||
□ Contact information
|
||||
twitter https://twitter.com/kugimoto0715
|
||||
e-mail gimons.developer.works@gmail.com
|
||||
|
||||
[EOF]
|
114
doc/x68k_en.txt
Normal file
114
doc/x68k_en.txt
Normal file
@ -0,0 +1,114 @@
|
||||
-------------------------------------------------- ----------------------------
|
||||
|
||||
SCSI Target Emulator RaSCSII (*^..^*)
|
||||
for Raspberry Pi
|
||||
|
||||
Powered by XM6 TypeG Technology.
|
||||
Copyright (C) 2016-2020 GIMONS
|
||||
|
||||
-------------------------------------------------- ----------------------------
|
||||
□ Regarding the functions unique to the X68000
|
||||
RaSCSI is equipped with a virtual SCSI device called a bridge device,
|
||||
You can bridge the host Raspberry Pi. With this bridge device
|
||||
The following functions are provided by using the dedicated driver for X68000.
|
||||
|
||||
・Ethernet
|
||||
It provides the same Ethernet function as Neptune-X. SCSI-connected Ethernet
|
||||
RaSCSI behaves like a BOX. Relay packets to the Raspberry Pi TAP device
|
||||
It is realized by doing. Similar to Ether+.
|
||||
|
||||
・Host file system
|
||||
The emulator of X68000 provides a standard function equivalent to Windrv.
|
||||
Mount the file system on the Raspberry Pi as a remote drive
|
||||
I can.
|
||||
|
||||
□ How to activate the Bridge Device
|
||||
If you set the keyword "BRIDGE" as the file name when RaSCSI starts up, it will be assigned to that ID.
|
||||
Generate a Buzzilli device for it.
|
||||
|
||||
ex)
|
||||
sudo rascsi -ID0 HDIMAGE0.HDS -ID6 BRIDGE
|
||||
|
||||
□ Dedicated driver
|
||||
Two drivers are included in RASDRIVER.XDF or RASDRIVER.HDS included in the distribution
|
||||
I am. It is better to mount RASDRIVER.HDS with RaSCSI and copy it appropriately to transfer to the actual device
|
||||
It will be easy.
|
||||
|
||||
□ Ethernet connection
|
||||
Ethernet driver (RASETHER.SYS) works with bridge device to connect to Ethernet
|
||||
You can send and receive packets.
|
||||
|
||||
Below, the IP address of the virtual adapter (TAP) of Raspberry Pi is "192.168.68.1",
|
||||
The case where the X68000 side is set to "192.168.68.3" will be explained.
|
||||
|
||||
-X68000 settings
|
||||
RASETHER.SYS is made by modifying the driver for Neptune-X.
|
||||
Exactly the same. In order to connect the X68000 to the internet, it is necessary to set other environment settings.
|
||||
I will. Please check the setting method by yourself.
|
||||
|
||||
Below is an excerpt of CONFIG.SYS and AUTOEXEC.BAT that are actually used.
|
||||
|
||||
[Excerpt from CONFIG.SYS]
|
||||
PROCESS = 3 10 10
|
||||
DEVICE = \NETWORK\RASETHER.SYS
|
||||
|
||||
[Excerpt from AUTOEXEC.BAT]
|
||||
SET SYSROOT=A:/NETWORK/
|
||||
SET temp=A:\
|
||||
SET tmp=A:\
|
||||
SET HOME=A:/NETWORK/ETC/
|
||||
SET HOST=X68000
|
||||
XIP.X
|
||||
IFCONFIG.X lp0 up
|
||||
IFCONFIG.X en0 192.168.68.3 netmask 255.255.255.0 up
|
||||
INETDCONF.X +router 192.168.68.1 -rip
|
||||
INETDCONF.X
|
||||
|
||||
・Raspberry Pi settings
|
||||
I am using a TAP device, so please enable TAP. perhaps
|
||||
If you're using Jessie these days, it should work from the beginning. The confirmation method is /dev/net/tun
|
||||
If the file exists, it can be determined that it is valid.
|
||||
|
||||
The method of creating a virtual adapter is as follows.
|
||||
|
||||
[Set from /etc/rc.local etc.]
|
||||
ip tuntap add ras0 mode tap user root
|
||||
ip link set ras0 up
|
||||
ifconfig ras0 inet 192.168.68.1/8 up
|
||||
route add -net 192.168.68.0 netmask 255.255.255.0 dev ras0
|
||||
|
||||
By the above, communication between Raspberry Pi (192.168.68.1) and X68000 (192.168.68.3)
|
||||
It will be possible.
|
||||
|
||||
When connecting to the Internet etc., bridge and routing on the Raspberry Pi side
|
||||
Settings are required. Please set according to your environment. Wifi
|
||||
In this case, there seem to be various problems in constructing a bridge.
|
||||
NAT configuration is also recommended. The author uses it in rc.local with the following settings.
|
||||
|
||||
echo 1 >/proc/sys/net/ipv4/ip_forward
|
||||
iptables -t nat -A POSTROUTING -o wlan0 -j MASQUERADE
|
||||
|
||||
□ Host file system cooperation
|
||||
It provides the same functions as Windrv and WindrvXM that are often used in the X68000 emulator.
|
||||
Raspberri Pi files if you include a dedicated device driver called RASDRV.SYS
|
||||
It means that the system can be seen and operated as a drive on the X68000 side.
|
||||
|
||||
Registering a device driver is easy.
|
||||
For example
|
||||
|
||||
DEVICE = \SYS\RASDRV.SYS
|
||||
|
||||
In this case, mount the root directory of Raspberry Pi by default.
|
||||
The drive mounted when the device driver is started is displayed.
|
||||
If you want to mount other than root, please specify the directory. /home/pi etc.
|
||||
To mount
|
||||
|
||||
DEVICE = \SYS\RASDRV.SYS /home/pi
|
||||
|
||||
Specify. If you specify multiple directories, they will be mounted as separate drives.
|
||||
It is possible.
|
||||
|
||||
If you are using SUSIE, please install RASDRV.SYS before SUSIE. When incorporated later
|
||||
There are reports that it can not be recognized correctly.
|
||||
|
||||
[EOF]
|
Loading…
Reference in New Issue
Block a user