URL
https://opencores.org/ocsvn/openrisc/openrisc/trunk
Subversion Repositories openrisc
[/] [openrisc/] [trunk/] [rtos/] [rtems/] [c/] [src/] [lib/] [libbsp/] [i386/] [pc386/] [HOWTO] - Rev 415
Go to most recent revision | Compare with Previous | Blame | View Log
+-----------------------------------------------------------------------------+
| RTEMS 4.5.0 PC386 BSP HOWTO - 1998/04/21 |
| |
+-----------------------------------------------------------------------------+
| (C) Copyright 1998 - |
| - NavIST Group - Real-Time Distributed Systems and Industrial Automation |
| |
| http://pandora.ist.utl.pt |
| |
| Instituto Superior Tecnico * Lisboa * PORTUGAL |
+-----------------------------------------------------------------------------+
| Disclaimer: |
| |
| This file is provided "AS IS" without warranty of any kind, either |
| expressed or implied. |
+-----------------------------------------------------------------------------+
| History: |
| 12 June 2000 - Updated to 4.5 (Joel) |
+-----------------------------------------------------------------------------+
CVS Revision: $Id: HOWTO,v 1.2 2001-09-27 11:59:47 chris Exp $
1. Introduction
---------------
This tries to explain how to setup the RTEMS host environment so
that RTEMS applications can be built for and run in a bare PC 386 or
above.
It covers essentially the aspects of loading images, since
information concerning other issues such as building the development
tools and the RTEMS distribution can be found in the 'RTEMS 4.0.0
On-Line Library' under 'Getting Started with RTEMS for C/C++ Users'.
Please note that everything in the following text using the
notation '<...>' is just an alias to something and should always be
substituted by the real thing!
2. Building the GNU C/C++ Cross Compiler Toolset
------------------------------------------------
Obtaining, building and installing the tools for building the
PC386 BSP of RTEMS is covered in detail in the 'RTEMS 4.5.0 On-Line
Library' -> 'Getting Started with RTEMS for C/C++ Users'. You can
either use pre-built toolset executables or build your own from
the instructions given there.
This BSP is designed to work only with ELF toolset configurations.
This is format used by the i386-rtems target.
4. Building RTEMS
-----------------
Obtaining, building and installing the tools for building the
PC386 BSP is covered in detail in the 'RTEMS 4.5.0 On-Line Library' ->
'Getting Started with RTEMS for C/C++ Users' -> 'Building RTEMS'.
When running configure, use the following values for the listed
options with an i386-rtems toolset:
--target=i386-rtems
--enable-rtemsbsp=pc386
5. RTEMS Tests
--------------
If you've completed the last step successfully, you'll find the
RTEMS sample and test files that can be loaded with GRUB in the
'<build_point>/pc386/tests' directory, RTEMS sample and test files in
a format suitable for use with NetBoot in the
'<build_point>/pc386/BootImgs' directory.
6. Loading RTEMS PC386 applications
-----------------------------------
6.1. Unarchiving
----------------
Files which have been "tarred, gzipped" (i.e. .tar.gz or .tgz
extension) may be unarchived with a command similar to one of the
following:
zcat <file>.tgz | tar xvof -
OR
gunzip -c <file>.tgz | tar xvof -
OR
tar xzvf <file>.tgz
NOTE: gunzip -c is equivalent to zcat. On commercial (non-Linux)
Unices, since the GNU utilities are not the standard 'tar' will be
gtar (GNU tar) and 'zcat' will be 'gzcat'.
Given that the necessary utility programs are installed, any of
the above commands will extract the contents of <file>.tar.gz into the
current directory. To view the contents of an archive without
restoring any files, use a command similar to the following:
zcat <file>.tgz | tar tvf -
6.2 Using GRUB to load RTEMS PC386 applications
-----------------------------------------------
Using GRUB (GRand Unified Bootloader) is the simplest way to load
and run your PC386 BSP samples, tests and programs.
You can get the latest release of GRUB from its homepage:
- http://www.gnu.org/grub/
NOTE: The former location was http://www.uruk.org/grub and ftp from
ftp://ftp.uruk.org/public/grub.
Once you obtain the .tar.gz archive 'grub-0.4.tar.gz', change to a
temporary directory (you won't need the grub files after this and can
just go ahead and delete the whole directory structure that was
generated) and unarchive 'grub-0.4.tar.gz' following the instructions
given above in [2. Unarchiving].
After this is done change the directory to:
grub-0.4/bin_std
and there you'll find the two files you'll need from this archive:
'stage1' and 'stage2'.
You should have two (2) formatted diskettes available. One of
these will only be used temporarily to create the other one, and we'll
refer to it as 'RAW GRUB' diskette (you can label it accordingly if
you wish). The other diskette, which we will refer to as 'GRUB FS'
should be high-level formatted with one of GRUB's supported file
systems, which are: DOS FAT, BSD FFS, and Linux ext2fs.
A DOS FAT diskette can, obviously, be created under DOS with the
'FORMAT' command. Under Linux, the following commands are available to
add file systems to low-level formatted diskettes:
1. To add a DOS FAT file system to a low-level formatted diskette:
a) If you have mtools installed:
'mformat a:'.
b) Assuming that you are formatting the diskette in the first
floppy disk drive ('/dev/fd0' under Linux):
'mkdosfs /dev/fd0' or
'mkfs.msdos /dev/fd0'.
2. To add a Linux ext2fs file system to a low-level formatted
diskette, assuming that you are formatting the diskette in the
first floppy disk drive ('/dev/fd0' under Linux):
'mke2fs /dev/fd0' or
'mkfs.ext2 /dev/fd0'.
Next we will install using 'rawrite' or 'dd' to the 'GRUB RAW'
diskette.
NOTE: This will destroy any data currently on the diskette.
Execute your OS's equivalent of (this should work for recent
FreeBSD versions and Linux just fine):
dd if=stage1 of=/dev/fd0 bs=512 count=1
dd if=stage2 of=/dev/fd0 bs=512 seek=1
Under DOS/Windows/NT, courtesy of Eric Hanchrow (erich@microsoft.com):
* Use the copy /b command to binary concatenate the stage1 and
stage2 files together via:
copy /b stage1 stage2 grub.raw
* Use rawrite.exe (which is available in many places on the net and
in some Linux distributions) to write grub.raw to a diskette.
Next stage: copy the 'stage1' and 'stage2' files to the 'GRUB FS'
diskette (if you are using Linux you can mount the diskette in an
appropriate mount point and then 'cp' the files to it, if it is either
a DOS FAT or an EXT2FS diskette, or in the case of a DOS FAT diskette
you can use 'mcopy' from 'mtools'.)
After this is done boot a PC using the 'GRUB RAW' diskette. After
this is done, you will get GRUB's command line interface. Exchange
'GRUB RAW' with the 'GRUB FS' diskette in the drive and issue the
following command from GRUB's prompt:
install=(fd0)/stage1 (fd0) (fd0)/stage2 0x8000 (fd0)/grubmenu
This command will make the 'GRUB FS' diskette bootable. After this
is done, you won't require the 'GRUB RAW' diskette anymore and you can
delete the 'stage1' file from the 'GRUB FS' diskette.
Next copy all the files you wish to load to the diskette. The GRUB
loadable test and sample files in the RTEMS distribution have '.exe'
extension and can be found under the build point in the 'pc386/tests'
directory. You can compress this files with gzip to save space if you
wish. GRUB loads 'gzipped' files transparently.
Finally you have to create a GRUB menu configuration file. We will
call this file 'grubmenu'. You can call it anything as long as you use
the correct name in the 'install' command where we used 'grubmenu'.
The 'grubmenu' file, as far as we are interested has the following
syntax:
title= Hello World Test
kernel= (fd0)/hello.exe.gz
You can add as many of this entries as you want to the 'grubmenu'
file. There should be one for each program you wish to load. The
'title=' line provides a description for the program that will appear
after boot in the GRUB menu for the user to choose and the 'kernel='
line describes where the file can be found by GRUB (you should leave
the '(fd0)/' part and just substitute the rest if you've copied the
files to the root directory of the diskette.
Just boot the PC with the 'GRUB FS' diskette and you will be able
to choose which program you want to load from GRUB's menu.
The GRUB documentation is available in HTML format in the 'docs'
directory of the GRUB tree starting with the 'index.html' file.
6.3 Using NetBoot to load RTEMS PC386 applications
---------------------------------------------------
To load the '*.bt' files you can
Alternatively, if you have a PC connected to a network with a
BOOTP server and a TFTP server (this can very well be you're Linux
RTEMS host system), you can use Gero Kuhlmann's NetBoot loader, to
load RTEMS to a diskless PC across a network. You can get it from:
ftp://sunsite.unc.edu/pub/Linux/system/boot/ethernet/netboot-0.7.3.tar.gz
or in any of Sunsite's mirrors. It is also available from NetBoot's
homepage:
http://www.han.de/~gero/netboot
After unarchiving 'netboot-0.7.3.tar.gz' you should change to the
base directory of this and run:
./configure --disable-mknbi-dos --disable-mknbi-linux --disable-mknbi-mgl
Afterwards, you should follow the instructions contained in the
'INSTALL' file also contained in the base directory, on how to setup the
server(s) and to build a boot ROM for the client PC network card, or a
boot diskette, and the PC client should be able to load the '*.bt' files
from the server.
The important sections to check in the 'INSTALL FILE' are the last two:
- Setup of the server (only the BOOTP and TFTP parts - ignore NFS).
===================
- Setup of the client including building the bootrom
==================================================
all the rest can be safely ignored if you don't care to examine it.
7. Technical Information
------------------------
NOTE: All the following paths are relative to the base directory
of the RTEMS distribution.
As of the writing of this HOWTO, PC386 images can be loaded either
in low memory 0x10000 (64KB) until 0x97C00 (607K) using NetBoot or in
high memory from 0x100000 (1024KB) until the top of the available
memory using either NetBoot or GRUB.
If you want to change the default loading address from 1024KB to
something else, just change the value of the variable RELOCADDR in the
'make/custom/pc386.cfg' file to the new value you want (make sure you
follow the instructions indicated before the definition of RELOCADDR).
Remember that GRUB restricts the loading addresses to values above
0x100000 (1024KB), only NetBoot can load images in low memory.
After you make any changes to RELOCADDR and if you are using
NetLoader, you'll have to recompile the
'c/src/lib/libbsp/i386/pc386/start/start16.s' file. The easiest way to
achieve this is just to 'make clean' and the 'make all' again. The
quickest way is to change to
'<build_point>/c/src/lib/libbsp/i386/pc386/start' and 'make
RTEMS_BSP=pc386 clean all'.
When programming interrupt handlers take into account that the PIC
is reprogrammed and so you should use the interface functions provided
in '<build_point>/pc386/lib/include/irq.h> to guarantee that everything
works ok.
Go to most recent revision | Compare with Previous | Blame | View Log