forked from Archive/PX4-Autopilot
e99deb5c4a
git-svn-id: http://svn.code.sf.net/p/nuttx/code/trunk@5316 42af7a65-404d-4744-a932-0658087f49c3 |
||
---|---|---|
.. | ||
include | ||
nsh | ||
ostest | ||
pashello | ||
src | ||
Kconfig | ||
README.txt | ||
sdcc-2.6.0-asz80-symlen.patch |
README.txt
xtrs README ^^^^^^^^^^^^^ Current status ^^^^^^^^^^^^^^ The xtrs port is not operational yet; some work still needs to be done. Contents ^^^^^^^^ o Getting a TRS80 emulator and DOS disks o Loading an executable into xtrs o Configuring NuttX o Building the SDCC toolchain o SDCC Update o Newer SDCC Versions Getting a TRS80 emulator and DOS disks ^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^ This port uses a vintage computer based on the Z80, the TRS80. There's a main page describing the different models of TRS80. See: http://www.trs-80.com An emulator for this computer is available to run TRS80 programs on a linux platform (http://www.tim-mann.org/xtrs.html). Other emulators are available for other platforms. See http://www.trs-80.com, click on the link Emulators. TRSDOS, LDOS and other softwares are available at: http://discover-net.net/~dmkeil/trs80/software/trs-dos.htm Or you can get TRSDOS 1.3 and 6.1 from this site; it's included with the emulator. http://discover-net.net/~dmkeil/trs80/model4.htm The SDCC toolchain is available from http://sdcc.sourceforge.net/. All testing has been performed using version 2.7.0 of the SDCC toolchain. Loading an executable into xtrs ^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^ At http://www.trs-80.com click on the link: Getting a Software Onto an Emulator. Configuring NuttX ^^^^^^^^^^^^^^^^^ ostest This configuration performs a simple, minimal OS test using examples/ostest. This can be configurated as follows: cd tools ./configure.sh xtrs/ostest cd - . ./setenv.sh nsh This configuration file builds NSH (examples/nsh). This configuration is not functional due to issues with use of the simulated serial driver (see the TODO list). This configuration can be selected by: cd tools ./configure.sh xtrs/nsh cd - . ./setenv.sh pashello Configures to use examples/pashello for execution from FLASH See examples/README.txt for information about pashello. This configuration is not usable because the resulting binary is too large for the z80 address space. This configuration can be selected by: cd tools ./configure.sh xtrs/pashello cd - . ./setenv.sh Building the SDCC toolchain ^^^^^^^^^^^^^^^^^^^^^^^^^^^ The SDCC toolchain is built with the standard configure/make/make install sequence. However, some special actions are required to generate libraries compatible with this build. First start with the usual steps download unpack cd sdcc ./configure But before making, we need to apply a patch to the SDCC 2.6.0 source so that the z80 assembler can handle long symbol names Apply sdcc-2.6.0-asz80-symlen.patch cd sdcc/device/lib Then make the SDCC binaries cd sdcc make and install SDCC: sudo make install SDCC Update ^^^^^^^^^^^ I have had some problems building sdcc-2.6.0 on my current UBUNTU release (9.10). I had other problems building sdcc-2.9.0 on UBUNTU 9.10. I suspect that the newer gcc toolchains are causing problems for these older SDCC releases. A 20091106 snapshot did build with no major problems on UBUNTU 9.10, but has some compatibilty problems with the older SDCC compiler. For one, you will need to change the Z80 assember name and options in the Make.defs files as follows: -AS = as-z80 +AS = sdasz80 - @$(AS) $(ASFLAGS) $2 $1 + $(AS) $(ASFLAGS) $1 For another, I had other problems building with that 20091106 that look like compiler bugs. If you are using UBUNTU 9.10, you may have to either (1) downgrade your GCC compiler to a version 3.x compiler and use one of the older stable releases, or (2) wait for the next stable SDCC release after 2.9.0. See below: If you wish to continue using the older SDCC toolchain, you must now also add CONFIG_SDCC_OLD=y to your configuration file. Newer SDCC Versions ^^^^^^^^^^^^^^^^^^^ This is the text of bug 3468951 reported on the SourceForge website: "Some obsolete stuff in z80sim port," (submitted by Philipp Klaus Krause): The simz80 port needs a few updates to work well with current sdcc versions, and has some unecessary stuff: * The linker name for Make.defs should be sdldz80 * The assembler name for Make.defs should be sdasz80 * _asm and _endasm in z80_io.c and z80_irq.c should be replaced by __asm and __endasm * The --stack-auto --int-long-reent --float-reent options or Make.defs should be removed, as they have no effect on sdcc's z80 port * The current assembler AFAIK can handle long symbol names, so the sdcc-2.6.0-asz80-symlen.patch is unnecessary, and it and the corresponding section from the README can be removed. These changes *have* been incorporated but only partially verified. In order to get a successful compilation, I had to copy stdarg.h out of the SDCC source (at sdcc/device/include/stdarg.h) to include/nuttx/stdarg.h. There are also some library related issues when you get to the final build that I have not looked into yet. If you want to back out these change and continue to use the older toolchain in your build, simpy define the following in your configuration file: CONFIG_SDCC_OLD=y