summaryrefslogtreecommitdiffstats
path: root/tools/alpha/cd
diff options
context:
space:
mode:
authorMystery Man <unknown@mandriva.org>2003-03-15 15:26:37 +0000
committerMystery Man <unknown@mandriva.org>2003-03-15 15:26:37 +0000
commit6f745bb1829160c3da8034b00ea4725faf7f4340 (patch)
treea6222c0684337a5283590c2b74bb538261086d18 /tools/alpha/cd
parentbad9352db6617835f12292f262952def1207dcb1 (diff)
downloaddrakx-backup-do-not-use-6f745bb1829160c3da8034b00ea4725faf7f4340.tar
drakx-backup-do-not-use-6f745bb1829160c3da8034b00ea4725faf7f4340.tar.gz
drakx-backup-do-not-use-6f745bb1829160c3da8034b00ea4725faf7f4340.tar.bz2
drakx-backup-do-not-use-6f745bb1829160c3da8034b00ea4725faf7f4340.tar.xz
drakx-backup-do-not-use-6f745bb1829160c3da8034b00ea4725faf7f4340.zip
This commit was manufactured by cvs2svn to create tag 'V9_1_25mdk'.V9_1_25mdk
Diffstat (limited to 'tools/alpha/cd')
-rw-r--r--tools/alpha/cd/Makefile8
-rw-r--r--tools/alpha/cd/README40
-rw-r--r--tools/alpha/cd/README.milo13
-rw-r--r--tools/alpha/cd/aboot.cnf3
-rw-r--r--tools/alpha/cd/up1000/5100440A.txt25
-rw-r--r--tools/alpha/cd/up1000/README.txt16
-rwxr-xr-xtools/alpha/cd/up1000/apb.cfg2
-rwxr-xr-xtools/alpha/cd/up1000/apb.exebin120832 -> 0 bytes
-rw-r--r--tools/alpha/cd/up1000/install.txt356
-rw-r--r--tools/alpha/cd/up1000/up1000.palbin30464 -> 0 bytes
10 files changed, 0 insertions, 463 deletions
diff --git a/tools/alpha/cd/Makefile b/tools/alpha/cd/Makefile
deleted file mode 100644
index 67af70f2f..000000000
--- a/tools/alpha/cd/Makefile
+++ /dev/null
@@ -1,8 +0,0 @@
-install:
- cp -f README README.milo $(ROOTDEST)
- install -d $(ROOTDEST)/etc
- cp -f aboot.cnf $(ROOTDEST)/etc
-
- install -d $(ROOTDEST)/boot
- cp -a up1000 $(ROOTDEST)/boot
- mv -f $(ROOTDEST)/boot/up1000/apb.* $(ROOTDEST)
diff --git a/tools/alpha/cd/README b/tools/alpha/cd/README
deleted file mode 100644
index 78eb94bd5..000000000
--- a/tools/alpha/cd/README
+++ /dev/null
@@ -1,40 +0,0 @@
-!! beta version !!
-
-Mandrake Alpha short Howto-Install
-
-this doc is for SRM, if you have alphabios, see README.milo
-
-
-* to install from the cdrom:
-
-- either boot on the cdrom:
- - in SRM, find the device name corresponding to the cdrom (`show device' can help)
- - enter `boot dqa0 -fl 0' (replacing dqa0 by the cdrom device)
-
-- or you can boot on a floppy:
- - first create a boot floppy from images/cdrom.img
- - in SRM, find the device name corresponding to the floppy (`show device' can help)
- - enter `boot dva0 -fl 0' (replacing dva0 by the floppy device)
- - fulfill the install.
-
-* on reboot:
-
-- either enter `boot XXXX -fl 0' where XXXX is the device where you installed
-the system
-
-- if the device is not available via SRM, use the
-cdrom: `boot dqa0 -file boot/v.gz -fl root=/dev/sda1' (replace sda1 by the
-root you installed on, and dqa0 by the cdrom device)
-
-
-* to install from the network:
-
-Same as for the cdrom install, except give `boot dqa0 -fl 1' or boot on
-images/network.img floppy (with `boot dva0 -fl 0')
-
-
-
- Alpha Team.
-
-Reports problems to Chmouel Boudjnah <chmouel@mandrakesoft.com> or Pixel
-<pixel@mandrakesoft.com>.
diff --git a/tools/alpha/cd/README.milo b/tools/alpha/cd/README.milo
deleted file mode 100644
index d2a52abe9..000000000
--- a/tools/alpha/cd/README.milo
+++ /dev/null
@@ -1,13 +0,0 @@
-* to install from the cdrom:
-
-- put boot/cdrom.rdz on a floppy
-
-- put that floppy in drive fd0
-
-- configure alphabios with (example for miata):
-
-Boot File: CD: \milo\miata\linload.exe
-OS path: CD: \milo\miata\milo
-OS options: boot scd0:/boot/instboot.gz root=/dev/fd0 load_ramdisk=1 mdkinst rw ramdisk_size=32000
-
-if you want text install, just add "text" to the options above
diff --git a/tools/alpha/cd/aboot.cnf b/tools/alpha/cd/aboot.cnf
deleted file mode 100644
index 42c7a4382..000000000
--- a/tools/alpha/cd/aboot.cnf
+++ /dev/null
@@ -1,3 +0,0 @@
-0:boot/instboot.gz initrd=boot/cdrom.rdz mdkinst rw ramdisk=32000 cdrom
-1:boot/instboot.gz initrd=boot/network.rdz mdkinst rw ramdisk=32000 network
-2:boot/instboot.gz initrd=boot/hd.rdz mdkinst rw ramdisk=32000 hd
diff --git a/tools/alpha/cd/up1000/5100440A.txt b/tools/alpha/cd/up1000/5100440A.txt
deleted file mode 100644
index ba6c5a9f1..000000000
--- a/tools/alpha/cd/up1000/5100440A.txt
+++ /dev/null
@@ -1,25 +0,0 @@
-The source code for the object code and executable programs licensed
-
-under GNU General Public License Version 2, June 1991 are available
-
-from Alpha Processor, Inc. at the API web site
-
-
-
- http://www.Alpha-Processor.COM
-
-
-
-For each distributed object or executable form of the programs, you
-
-will find an identifying API part number. You may use that part
-
-number to find the corresponding machine-readable source code.
-
-
-
-If you have any questions, contact Customer Support at API.
-
-
-
-51-0044-0A \ No newline at end of file
diff --git a/tools/alpha/cd/up1000/README.txt b/tools/alpha/cd/up1000/README.txt
deleted file mode 100644
index 88f8855d3..000000000
--- a/tools/alpha/cd/up1000/README.txt
+++ /dev/null
@@ -1,16 +0,0 @@
-Known issues with the UP1000 system:
-
-1. Linux boot via floppy disk drive:
- When booting Linux via APB, it takes about 5 minutes for APB to load the kernel image from a floppy device. Booting from a hard disk takes a matter of seconds.
-
-2. 2x AGP card:
- a. At the present time, 2x AGP driver for Linux is not available so 2x mode has not been tested.
- b. The following cards have been used in 1x AGP mode: cards with Permedia-2 controller: Fire
- GL1000, ELSA Synergy, E&S, Matrox Millenium G200 and Stealth 2000.
- c. 3Dfx Rage Pro Turbo card does not work because the option ROM on the AGP card is
- not properly emulated by Alpha BIOS.
-
-3. Linux installation:
- a. To install Linux, please click the "Utilities" menu in the Alpha BIOS setup mode and the
- "Run Maintenance Program". And follow the Linux installation procedure that API provides.
- b. Please do not use the "Install Linux" menu in the "Operating System" menu. \ No newline at end of file
diff --git a/tools/alpha/cd/up1000/apb.cfg b/tools/alpha/cd/up1000/apb.cfg
deleted file mode 100755
index 06614adcb..000000000
--- a/tools/alpha/cd/up1000/apb.cfg
+++ /dev/null
@@ -1,2 +0,0 @@
-floppy|bootl boot\up1000\up1000.pal boot\instboot.gz root=/dev/fd0 load_ramdisk=1 mdkinst rw ramdisk_size=32000
-floppy_text|bootl boot\up1000\up1000.pal boot\instboot.gz root=/dev/fd0 load_ramdisk=1 mdkinst rw ramdisk_size=32000 text
diff --git a/tools/alpha/cd/up1000/apb.exe b/tools/alpha/cd/up1000/apb.exe
deleted file mode 100755
index 4b3aa6099..000000000
--- a/tools/alpha/cd/up1000/apb.exe
+++ /dev/null
Binary files differ
diff --git a/tools/alpha/cd/up1000/install.txt b/tools/alpha/cd/up1000/install.txt
deleted file mode 100644
index 61dff54f9..000000000
--- a/tools/alpha/cd/up1000/install.txt
+++ /dev/null
@@ -1,356 +0,0 @@
-
-- Contents of floppy
-
-apb.exe Alpha Processor bootloader v. 1.0.1.
-apb.cfg Sample apb configuration file.
-up1000.pal PAL code for Linux on UP1000.
-vmlinux.gz Linux kernel v. 2.2.12 with UP1000 patch.
-System.gz Kernel Symbol table.
-INSTALL This file.
-
-
-- Installation of RedHat Linux from CD ROM
-
-1. Copy this directory to a floppy disk.
-
-2. Insert floppy disk and RedHat Linux CD ROM.
- This installation guide assumes
- - hard disk is connected to primary channel as a master
- - CD ROM drive is connected to primary channel as a slave
-
-3. From AlphaBIOS run apb.exe as a utility program.
- [F2]->Utility->Run maintanace program
-
-4. At the apb command prompt, type
- apb> cd floppy
- apb> bootl up1000.pal vmlinux.gz root=/dev/hdb
- This assumes you have an ATAPI CD ROM drive which Linux recognizes
- as /dev/hdb (you may have to try /dev/hda, /dev/hdc, etc. depending
- on your configuration. For a SCSI CD ROM drive, /dev/scd or
- /dev/scd0.
-
-5. This should get you into the RedHat installation program. During the
- disk partitioning phase of the installation be sure to allocate a small
- FAT partition to be used as the "boot" partition. 10 MB should be ample.
- If you choose 'Workstation' or 'Server' package then you don't need to
- partition the disk by yourself.
- * Follow the common redhat installation procedure.
- * During install, Don't configure X server,
- * Select 'Startup through ARC console' on timezone setup menu.
-
-6. Due to bugs in redhat 6.0, FAT partition is not formatted during installation
- depends on package selection.
- So, After installation, run apb.exe from flopy again and at the
- apb command prompt, type
- apb> cd floppy
- apb> bootl up1000.pal vmlinux.gz root=/dev/hda5 single
- You'll get shell prompt then type following commands.
- # mkfs -t msdos /dev/hda1
- # mount /dev/hda1 /dos
- # mcopy a:*.* /dos
- # gzip -dc /dos/system.gz > /boot/System.map
- # ln -s Tsunami /etc/alpha_systype
- # init 6
-
-8. Configure the OS selection menu of AlphaBIOS to start apb.exe
- from the boot partition.
- In 'OS Selection' menu([F2]->Operating system->OS selection setup),
- Make an entry like this.
-
- Boot name: Linux
- Boot file: Disk 0 Partition 1 \apb.exe
- OS Path : Disk 0 Partition 2 \winnt
- OS Options:
-
- OS Path doesn't have any meaning, just leave it intact.
-
-9. You can run apb from hard disk by selecting what you configured on step 8.
-
-10. Set the environment variable APB_DEVICE to be the AlphaBIOS name
- of the boot partition.
- For example,
- apb> setenv APB_DEVICE scsi(0)disk(0)rdisk(0)partition(1)
- type 'cd' once to make above environment variable change to be applied.
- apb> cd
-
-11. Now, You can boot linux by selecting 'Linux' on BIOS' OS boot menu
- and then type this on apb prompt
-
- apb> bootl up1000.pal vmlinux.gz root=/dev/hda5
-
- If you don't want to type above long line everytime. You have two options
- 1. Create apb.cfg file under /dos directory, Its contents look like
-
- linux|bootl up1000.pal vmlinux.gz root=/dev/hda5
-
- then you can boot linux by typying
-
- apb> boot linux
-
- 2. Put option string in OS Selection setup menu of BIOS setup.
-
- Boot name: Linux
- Boot file: Disk 0 Partition 1 \apb.exe
- OS Path : Disk 0 Partition 2 \winnt
- OS Options: bootl up1000.pal vmlinux.gz root=/dev/hda5
-
- Then this setup will boot linux without apb prompt.
-
-
--------------------------------------------------------------------------------
-
-
- APB -- Alpha Processor Bootstrap Loader for AlphaBIOS
-
- Alpha Processor, Inc.
- 130C Baker Ave. Ext.
- Concord, MA 01742, USA
-
- David Daniel, Soohoon Lee, Stig Telfer
- customer.support@alpha-processor.com
-
-========================================================================
-
- Copyright (c) 1999, Alpha Processor, Inc.
- All Rights Reserved
-
-Permission to use, copy, modify, and distribute this software and its
-documentation for any purpose and without fee is hereby granted,
-provided that the copyright notice and this permission notice appear
-in all copies of software and supporting documentation, and that the
-name of Alpha Processor not be used in advertising or publicity
-pertaining to distribution of the software without specific, written
-prior permission. Alpha Processor grants this permission provided
-that you prominently mark, as not part of the original, any
-modifications made to this software or documentation.
-
-Alpha Processor disclaims all warranties and/or guarantees with regard
-to this software, including all implied warranties of fitness for a
-particular purpose and merchantability, and makes no representations
-regarding the use of, or the results of the use of, the software and
-documentation in terms of correctness, accuracy, reliability,
-currentness or otherwise; and you rely on the software, documentation
-and results solely at your own risk.
-
-========================================================================
-
-
-0. Introduction
-
-APB is a bootstrap loader for Alpha processor based systems with
-AlphaBIOS firmware. It is primarily intended to be used for booting
-Linux, though it may also be useful for free BSD derived systems.
-
-APB borrows ideas and some code from many places, notably Linux and
-other Linux loaders for Alpha systems (aboot and MILO), and the ARCDos
-example in the ARC Application Development Kit. APB can also be
-linked against zlib to support reading compressed kernel and PALcode
-images. See the file CREDITS for details.
-
-
-1. Using APB
-
-+ Overview
-
-APB presents a simple command line interface with the following
-commands
-
- boot TARGET boot a target in the configuration file
- bootl PALCODE KERNEL ARG1 ... boot Unix
- cd DEVICE set the current device
- cp | copy FILE1 FILE2 copy files
- exit | quit exit to AlphaBIOS
- halt | reset system shutdown options
- ls | dir list files on the current device
- mkdir DIR make a directory
- more FILE list a file
- mv | rename FILE1 FILE2 rename a file
- pwd print the current device
- rm | delete FILE delete a file
- printenv [NAME] print environment variable(s)
- setenv [NAME [VAL]] (un)set environment variable
- show targets | devices show information
-
-At any time an AlphaBIOS is device is selected as the default or
-current device. On initialization this is set to the value of the
-APB_DEVICE firmware environment variable, or "multi(0)disk(0)fdisk(0)"
-(usually the floppy device) if this is not set.
-
-To change the default device, use the "cd" command. For example
-
- cd scsi(0)disk(0)rdisk(0)partition(2)\os\linux
-
-sets the default device to be the second partition of the disk 0 on
-the 0th SCSI controller. To save this for future invocations, set the
-APB_DEVICE firmware environment variable using the "setenv" command:
-
- setenv APB_DEVICE scsi(0)disk(0)rdisk(0)partition(2)\os\linux
-
-After this you can return to this device using "cd".
-
-Also the special targets
-
- cd floppy
- cd cdrom
-
-will take you to the (first) floppy and CD-ROM drives respectively.
-
-If there is a file system supported by AlphaBIOS on the device -- FAT,
-ISO 9660 (CD-ROM) -- then a directory listing can be obtained using
-the "dir" or "ls" command:
-
- apb> ls
- Directory listing of scsi(0)disk(0)rdisk(0)partition(2):
- APB.CFG
- APB.EXE
- LINUX.PAL
- VMLINUX
-
-
-+ Booting from disk
-
-The recommended way to boot a system using APB is set aside a small
-(10 - 30 MB) FAT partition on one disk to be used as a boot partition.
-The following files should be placed on the boot partition:
-
- The APB image (APB.EXE)
- The PALcode image
- The kernel image
- An optional configuration file "APB.CFG" (see below)
-
-Run APB (either from floppy or from the boot partition and use it to
-set the environment variable APB_DEVICE to the name of the boot
-partition. For example if the boot partition is the first partition
-on a SCSI disk with SCSI ID 3 on the first SCSI controller, and the files are in directory \os\linux set APB_DEVICE using
-
- apb> setenv APB_DEVICE scsi(0)disk(3)rdisk(0)partition(1)\os\linux
-
-To enable autoboot
-
- apb> setenv APB_AUTOBOOT 1
-
-This performs the first boot command it finds in the APB configuration
-file, unless interrupted.
-
-Otherwise boot manually using a command such as
-
- apb> bootl palcode kernel [kernel_arg1 [kernel_arg1 ...]]
-
-or use one of the labels defined in the APB configuration file, for
-example
-
- apb> boot linux
-
-See below for the configuration file format.
-
-+ Environment variables
-
-APB uses the following firmware environment variables to set default
-noptions:
-
- APB_DEVICE Default device for all operations
- APB_AUTOBOOT Determines whether an autoboot should be attempted
-
-If these are not set on invocation, then they are set to reasonable
-values, namely
-
- APB_DEVICE=multi(0)disk(0)fdisk(0)
- APB_AUTOBOOT=0
-
-+ Configuration file
-
-APB consults a configuration file "APB.CFG" that is assumed to be
-located at the current device path (initially given by environment
-variable APB_DEVICE). The file consists of lines that are either
-comments, or boot commands prefixed with a mnemonic label. For example
-
- # This is comment
- linux-2.2|bootl linux.pal vmlinux.gz root=/dev/sda3
- linux-2.0|bootl linux.pal vml20.gz root=/dev/sda3
-
-In this case, to boot linux-2.2, type
-
- apb> boot linux-2.2
-
-which is equivalent to
-
- apb> bootl linux.pal vmlinux.gz root=/dev/sda3
-
-If the AUTO_BOOT environment variable is set TRUE, then the default
-configuration will be booted after 10 seconds, unless a key is
-pressed.
-
-+ Boot devices
-
-APB can boot from any filesystem supported by AlphaBIOS. At present
-these are limited to FAT, NTFS and ISO 9660 (CD-ROM).
-
-+ Booting from a network device
-
-Not yet implemented.
-
-
-2. Building APB
-
-APB is an AlphaBIOS/ARC application. Currently it must be built on an
-Microsoft Windows NT 4.0 Alpha processor system, with Microsoft Visual
-C++ 5.0 (or higher), the Microsoft Software Development Kit (SDK) and
-Device Driver Development Kit (DDK) for NT 4.0, and Compaq ARC
-Application Development Kit (ADK) 1.3.
-
-Optionally, APB can be linked against zlib (a free compression
-library) to support reading compressed kernel and PALcode images.
-
-To build, open a command window, set up the environment:
-
- VC++ (e.g "C:Program Files\DevStudio\VC\bin\vcvars32.bat")
- DDK (e.g. "C:\DDK\bin\setenv.bat C:\DDK")
- ADK (e.g. "set ADK=C:\adkv13\adk")
-
-and then and make using nmake. For example:
-
- C:\apb-1.0> nmake
-
-where the DDK has been installed on the C: drive.
-
-If building with compressed file support, obtain and unpack zlib
-(http://www.cdrom.com/pub/infozip/zlib/), set the variable ZLIB to
-the zlib directory, and then make. For example
-
- C:\apb-1.0> set ZLIB=C:\zlib-1.1.3
- C:\apb-1.0> nmake
-
-In either case, the executable is placed in the "obj\alpha"
-subdirectory.
-
-
-3. What APB does
-
-Booting Linux with APB involves the following steps:
-
- AlphaBIOS loads and transfers control to APB.
-
- APB is called with an argument specifying the device (as known to
- AlphaBIOS) from which to read the Linux kernel, and additional
- arguments to be passed on to the kernel.
-
- APB sets up the environment for Linux, including loading and
- switching to the correct PAL code, setting up the HWRPB, copying
- kernel arguments to the right location in memory etc.
-
- APB reads the Linux kernel image into memory from the specified
- device (raw disk initially, and eventually filesystems or network
- devices via bootp) and transfers control.
-
-
-4. Modifying APB
-
-APB has been written with the aim of maintaining platform independence
-across all AlphaBIOS (and ARC) systems. Furthermore, all dependence
-on the ARC API has been isolated in the file "arc.c", so that porting
-to another firmware environment should not be too difficult as long as
-it provides a sufficiently complete API.
-
-Additional user commands can be incorporated through the command
-dispatch table in "cmd.c".
-
diff --git a/tools/alpha/cd/up1000/up1000.pal b/tools/alpha/cd/up1000/up1000.pal
deleted file mode 100644
index a47b359f3..000000000
--- a/tools/alpha/cd/up1000/up1000.pal
+++ /dev/null
Binary files differ