ZuluSCSI uses raw hard drive image files, which are stored on a FAT32 or exFAT-formatted SD card. These are often referred to as "hda" files.
Examples of valid filenames:
HD5.hdaorHD5.img: hard drive with SCSI ID 5HD20_512.hda: hard drive with SCSI ID 2, LUN 0, block size 512. Currently, ZuluSCSI does not support multiple LUNs, only LUN 0.CD3.iso: CD drive with SCSI ID 3
In addition to the simplified filenames style above, the ZuluSCSI firmware also looks for images using the BlueSCSI-style "HDxy_512.hda" filename formatting.
The media type can be set in zuluscsi.ini, or directly by the file name prefix.
Supported prefixes are HD (hard drive), CD (cd-rom), FD (floppy), MO (magneto-optical), RE (generic removeable media), TP (sequential tape drive).
The .iso format for CD images only supports data track.
For audio and mixed mode CDs, two files are needed: .bin with data and .cue with the list of tracks.
To use a BIN/CUE image with ZuluSCSI, name both files with the same part before the extension.
For example CD3.bin and CD3.cue.
The cue file contains the original file name, but it doesn't matter for ZuluSCSI.
BIN/CUE support is currently experimental. Supported track types are AUDIO, MODE1/2048 and MODE1/2352.
Empty image files can be created using operating system tools:
- Windows:
fsutil file createnew HD1.img 1073741824(1 GB) - Linux:
truncate -s 1G HD1.img - Mac OS X:
mkfile -n 1g HD1.img
If you need to use image files larger than 4GB, you must use an exFAT-formatted SD card, as the FAT32 filesystem does not support files larger than 4,294,967,295 bytes (4GB-1 byte).
ZuluSCSI firmware can also create image files itself.
To do this, create a text file with filename such as Create 1024M HD40.txt.
The special filename must start with "Create" and be followed by file size and the name of resulting image file.
The file will be created next time the SD card is inserted.
The status LED will flash rapidly while image file generation is in progress.
Log messages are stored in zululog.txt, which is cleared on every boot.
Normally only basic initialization information is stored, but switching the DBG DIP switch on will cause every SCSI command to be logged, once the board is power cycled.
The indicator LED will normally report disk access. It also reports following status conditions:
- 1 fast blink on boot: Image file loaded successfully
- 3 fast blinks: No images found on SD card
- 5 fast blinks: SD card not detected
- Continuous morse pattern: firmware crashed, morse code indicates crash location
In crashes the firmware will also attempt to save information into zuluerr.txt.
Optional configuration can be stored in zuluscsi.ini.
If image file is found but configuration is missing, a default configuration is used.
Example config file is available here: zuluscsi.ini.
Performance information for the various ZuluSCSI hardware models is documented separately, here
The firmware supports hot-plug removal and reinsertion of SD card. The status led will blink continuously when card is not present, then blink once when card is reinserted successfully.
It will depend on the host system whether it gets confused by hotplugging. Any IO requests issued when card is removed will be timeouted.
For RP2040-based boards, the USB programming uses .uf2 format file that can be copied to the virtual USB drive that shows up in bootloader mode.
- There is a custom bootloader that loads new firmware from SD card on boot.
- The firmware file must be e.g.
ZuluSCSI.binorZuluSCSIv1_0_2022-xxxxx.bin. - Firmware update takes about 1 second, during which the LED will flash rapidly.
- When successful, the bootloader removes the update file and continues to main firmware.
For ZuluSCSI V1.1 and V1.2:
- Alternatively, ZuluSCSI V1.x can be programmed using USB connection in DFU mode by setting DIP switch 4.
- For later-revision ZuluSCSI RP2040 boards, there is a "BOOTLDR" momentary-contact switch, which can be held down at initial power-on, to enable .uf2 firmware to be loaded.
- For ZuluSCSI V1.2 boards, there is a "BOOTLDR" momentary-contact switch, which can be held down at initial power-on, to enable DFU mode, needed for firmware recovery mode.
- The necessary programmer utility for Windows can be downloaded from GD32 website. On Linux and MacOS, the standard 'dfu-util' can be used. It can be installed via your package manager under Linux. On MacOS, it is available through MacPorts and Brew as a package.
- For ZuluSCSI V1.x boards, firmware can be flashed with the following command:
dfu-util --alt 0 --dfuse-address 0x08000000 --download ZuluSCSIv1_1_XXXXXX.bin
For ZuluSCSI V1.1, the DIP switch settings are as follows:
- DEBUG: Enable verbose debug log (saved to
zululog.txt) - TERM: Enable SCSI termination
- BOOT: Enable built-in USB bootloader, this DIP switch MUST remain off during normal operation.
- SW1: Enables/disables Macintosh/Apple specific mode-pages and device strings, which eases disk initialization when performing fresh installs on legacy Macintosh computers.
For ZuluSCSI V1.2, the DIP switch settings at SW301 are as follows:
- TERM: Enable SCSI termination
- DEBUG: Enable verbose debug logging via USB serial console.
- DIRECT/RAW: when in the factory-default OFF position, the entirety of the SD card is exposed as a single block device, and the device type is defined by the setting of the rotary DIP switch at SW404.
- QUIRKS: Enables/disables Macintosh/Apple specific mode-pages and device strings, which eases disk initialization when performing fresh installs on legacy Macintosh computers.
ZuluSCSI Mini has no DIP switches, so all optional configuration parameters must be defined in zuluscsi.ini
ZuluSCSI RP2040 Full Size DIP switch settings are:
- INITIATOR: Enable SCSI initiator mode for imaging SCSI drives
- DEBUG LOG: Enable verbose debug log (saved to
zululog.txt) - TERMINATION: Enable SCSI termination
- BOOTLOADER: Enable built-in USB bootloader, this DIP switch MUST remain off during normal operation. Later (Rev2023a) ZuluSCSI RP2040 Full Size boards have a bootloader button instead of a DIP switch.
CD-ROM drives can be configured to eject when a physical button is pressed.
If multiple image files are configured with IMG0..IMG9 config settings, ejection will switch between them.
Two separate buttons are supported and they can eject different drives.
[SCSI1]
Type=2 # CDROM drive
IMG0 = img0.iso
IMG1 = ...
EjectButton = 1
On ZuluSCSI V1.0 and V1.1 models, buttons are connected to J303 12-pin expansion header.
Button 1 is connected between PE5 and GND, and button 2 is connected between PE6 and GND.
Pin locations are also shown in this image.
On red RP2040-based ZuluSCSI models, buttons are connected to the I2C pins.
Button 1 is connected between SDA and GND and button 2 is connected between SCL and GND.
On full-size models, the pins are available on expansion header J303 (image).
On compact model, pins are available on 4-pin I2C header J305 (image).
The full-size RP2040 and RP2040 Pico models supports SCSI initiator mode for reading SCSI drives.
When enabled by the DIP switch, ZuluSCSI RP2040 will scan for SCSI drives on the bus and copy the data as HDxx_imaged.hda to the SD card.
LED indications in initiator mode:
- Short blink once a second: idle, searching for SCSI drives
- Fast blink 4 times per second: copying data. The blink acts as a progress bar: first it is short and becomes longer when data copying progresses.
The firmware retries reads up to 5 times and attempts to skip any sectors that have problems.
Any read errors are logged into zululog.txt.
Depending on hardware setup, you may need to mount diode D205 and jumper JP201 to supply TERMPWR to the SCSI bus.
This is necessary if the drives do not supply their own SCSI terminator power.
The RP2040 model supports storing up to 1660kB image as a read-only drive in the flash chip on the PCB itself. This can be used as e.g. a boot floppy that is available even without SD card.
To initialize a ROM drive, name your image file as e.g. HD0.rom.
The drive type, SCSI ID and blocksize can be set in the filename the same way as for normal images.
On first boot, the LED will blink rapidly while the image is being loaded into flash memory.
Once loading is complete, the file is renamed to HD0.rom_loaded and the data is accessed from flash instead.
The status and maximum size of ROM drive are reported in zululog.txt.
To disable a previously programmed ROM drive, create empty file called HD0.rom.
If there is a .bin file with the same ID as the programmed ROM drive, it overrides the ROM drive.
There can be at most one ROM drive enabled at a time.
- src/ZuluSCSI.cpp: Main portable SCSI implementation.
- src/ZuluSCSI_disk.cpp: Interface between SCSI2SD code and SD card reading.
- src/ZuluSCSI_log.cpp: Simple logging functionality, uses memory buffering.
- src/ZuluSCSI_config.h: Some compile-time options, usually no need to change.
- lib/ZuluSCSI_platform_GD32F205: Platform-specific code for GD32F205.
- lib/SCSI2SD: SCSI2SD V6 code, used for SCSI command implementations.
- lib/minIni: Ini config file access library
- lib/SdFat_NoArduino: Modified version of SdFat library for use without Arduino core.
- utils/run_gdb.sh: Helper script for debugging with st-link adapter. Displays SWO log directly in console.
To port the code to a new platform, see README in lib/ZuluSCSI_platform_template folder.
This codebase uses PlatformIO. To build run the command:
pio run
This firmware is derived from two sources, both under GPL 3 license:
- SCSI2SD V6
- BlueSCSI, which in turn is derived from ArdSCSIno-stm32.
Main program structure:
- SCSI command implementations are from SCSI2SD.
- SCSI physical layer code is mostly custom, with some inspiration from BlueSCSI.
- Image file access is derived from BlueSCSI.
Major changes from BlueSCSI and SCSI2SD include:
- Separation of platform-specific functionality to separate directory to ease porting.
- Originally ported to GD32F205 and then RP2040 (See commit 858620f).
- Removal of Arduino core dependency, as it was not currently available for GD32F205.
- Buffered log functions.
- Simultaneous transfer between SD card and SCSI for improved performance.
