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brickEmu brickEmu CI

An emulator for LEGO MindStorms RCX bricks

Copyright © 2003-2006 Jochen Hoenicke

With updates by Matthew Sheets

Original Website – https://jochen-hoenicke.de/rcx/brickemu.html

This is an emulator for a LEGO RCX brick. It emulates processor and peripherals, so it runs the original ROM code, firmware and programs. In principal it should work with any firmware, but I only tested brickOS. It also has some special features that only works when brickOS is installed.

It is still in an early state, so forgive the bad documentation.

Quick install instructions

You need the ROM image from your RCX brick. Put this image into a file named rom.srec in SREC format. You can get a program that extracts the image from the getROM project.

A ROM image written from scratch is now included; however, if you want a more precise emulation, you can remove rom.bin and put the original ROM image into rom.srec (in SREC format), or rom.bin (in binary format).

cd brickemu
make
export CROSSTOOLPREFIX=<path to h8300 cross-compiler toolchain (e.g. /usr/bin/h8300-hms- )>
export BRICKOS_DIR=<path to brickOS home>
export BRICKOS_LIBDIR=<path to brickOS lib dir>  (if not ${BRICKOS_DIR}/lib/brickos)
./ir-server
wish GUI.tcl -firm <path/to/brickOS.coff>

You can set BRICKEMU_DIR if you want to start emu from another directory.

There are two possibilities to download firmware and programs. The easy way is to choose "Firmware..." and "Load Program..." from the menu. Make sure that the rcx is turned on before loading firmware, otherwise it will just fail silently.

With "Firmware..." you can load either coff or srec files. I recommend to use coff files as these come with symbolic information, which is used by brickemu to determine the location of memory, program and thread data structures. The "Load Program..." and the various "Dump" menu entries will only work if you loaded a brickOS firmware from the coff file. You can simply "make brickOS.coff" in the brickos/boot directory.

IR support

The emulated bricks support IR communications and if you start several instances they can send each other messages. You can also inject messages yourself by connecting to port 50637. All data is sent as raw bytes and repeated to every one who is connected to this port (including the sender). This emulates the broadcasting nature of infra red.

You can also download the program and firmware via IR with the standard brickOS utitilies . You need to patch the utilities so they can also write to a network socket instead of the serial port. The patches are included in the archive (see download section).

  • NOTE: The BrickBot brickOS-bibo and NQC projects have already been patched.

As an alternative to patching, is it possible that socat (Linux) or com0com (Windows) can be setup to provide a pseudo-terminal interface to ir-server. (Note that, due to shared dependencies, ir-server has been moved to the brickOS project.)

Then you just download the firmware and program as you do it on your real RCX, only the tty needs to be changed.

cd brickos
util/firmdl --tty=ncd:localhost:50637 boot/brickOS.srec
util/dll --tty=ncd:localhost:50637 demo/helloworld.lx

This will download the firmware via TCP/IP and emulated infrared controller (this is what ir-server was good for). Since the emulator runs in real time this will take a while.

To debug:

Download and compile gdb with --target=h8300-hitachi-hms

When the emulator detects illegal memory access it will wait for a debugger to connect. You can also force entering debugging mode by pressing Ctrl + Backslash in the xterm where you started "emu" or you can start the emulator with "./emu -d". When it waits for the debugger you can start it in another window like this:

cd brickos/boot
make brickOS.coff
h8300-hitachi-hms-gdb brickOS.coff
(gdb) target remote localhost:6789

Known Issues

This updated version of brickEmu includes the following known issues

  • Program Freeze – Rollover of the emulator cycle counter does not appear to be handled, causing the program to stop responding after a certain period of execution. On some systems, this was happening within 10 - 15 minutes. Due to the extent of scope, rollover handling has not been implemented at this time; however, the cycle counter was increased in size from a 32-bit signed integer to a 64-bit signed integer (long long), extending the duration before rollover by 4,294,967,295 (2[sup]32[/sup]) times. Hopefully that is more than adequate for normal use. :-) This change touches a number of different areas—each one of which needed to be adjusted for the increased integer size—, so it is possible that if an area was missed, the app might hang after the prior rollover period elapses when that area’s functionality is invoked.

    • Note: In the original codebase, long referred to a 32-bit integer (c.f. NUM_REG_BYTES in debugger.c)
  • Save/Load State – Save/Load state functionality has not yet been updated to account for the increase in cycle counter size, so neither saving nor loading will work at this time.

  • Prior Saved States — Due to the change in cycle counter size, any prior saved states will not be compatible with the updated program version.

TODO:

  • better sensor input/motor output
  • fix all bugs :)
  • load/save functionality
  • support for other Operating Systems (anyone tried this with cygwin?)
  • support for other Firmware
  • better debugging support especially for the downloaded files.