Difference between revisions of "Armadeus 3"
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==How-to obtain the Armadeus 3== | ==How-to obtain the Armadeus 3== | ||
− | The third generation of Armadeus is either available on the GIT repository: git:// | + | The third generation of Armadeus is either available on the GIT repository: git://git.code.sf.net/p/armadeus/code or by download: https://sourceforge.net/project/showfiles.php?group_id=122057 |
You can checkout the new version of armadeus or update your working version of armadeus. '''We strongly suggest you to checkout the new version of Armadeus because the new naming convention of files will produce a second directory structure of toolchain, projects, build and image files that could be a source of confusion.''' | You can checkout the new version of armadeus or update your working version of armadeus. '''We strongly suggest you to checkout the new version of Armadeus because the new naming convention of files will produce a second directory structure of toolchain, projects, build and image files that could be a source of confusion.''' | ||
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<pre class="host"> | <pre class="host"> | ||
− | git clone git:// | + | git clone git://git.code.sf.net/p/armadeus/code armadeus |
</pre> | </pre> | ||
Revision as of 04:08, 11 December 2012
This page will help you use the Armadeus 3.x software release. It also provides you with information about changes compared to the previous 2.x versions of Armadeus.
Contents
- 1 Introduction
- 2 Important Information regarding documentation
- 3 How-to obtain the Armadeus 3
- 4 How-to configure and build Armadeus 3
- 5 How-to upgrade the apf9328 target
- 6 How-to develop with Armadeus / customize your SDK
- 6.1 How-to add a software package
- 6.2 How-to remove a package
- 6.3 How-to modify a software
- 6.4 How-to create a buildroot package
- 6.5 How-to modify root filesystem
- 6.6 How-to modify Linux kernel
- 6.7 How-to configure a Linux kernel
- 6.8 How-to configure U-Boot
- 6.9 How-to modify U-Boot
- 6.10 How-to configure busybox
- 7 Links
Introduction
Armadeus 3 adds many new features, including the following:
- Some architectural changes to support different hardware targets: APF9328 and APF27
- New versions of U-Boot (1.3.4), Linux kernel (2.6.27), GCC (4.2.1), Busybox (1.12.1) and also a recent version of Buildroot
- New naming convention of files
- New Flash partition mapping on the target
- TBC
Important Information regarding documentation
Note: With the introduction of the Armadeus 3 SDK, the Wiki documentation has moved to support the new software. Nevertheless you can download the following HTML dump to have the Armadeus 2.x compatible documentation: Armadeus 2.x wiki. Wiki will also moved in the next weeks so to have an always Armadeus 3.x compatible HTML dump it's here |
To summarize the documentation changes, here are the rules to adapt the documentation according to your target and version of Armadeus.
- First Armadeus configuration once you have downloaded the Armadeus package found somewhere in First Setup pages:
- Armadeus 3 first command to use according to your <board> (apf9328 or apf27): make <board>_defconfig
- Armadeus 2 first command for apf9328: make
- Binary files location according to your <board> (apf9328 or apf27):
- Armadeus 3 is buildroot/binaries/<board>/
- Armadeus 2 was buildroot/armadeus/
- Armadeus 3 binary files naming convention according to your <board> (apf9328 or apf27):
- <board>-u-boot.brec
- <board>-u-boot.bin
- <board>-linux.bin
- <board>-rootfs.arm.jffs2
- <board>-rootfs.arm.tar
- Armadeus 2 binary files naming convention for apf9328 only:
- u-boot.brec
- u-boot.bin
- linux-kernel-2.6.xx.x-arm.bin
- rootfs.arm.jffs2
- rootfs.arm.tar
- Non configurable users-space tools including compiler for your board (apf9328 or apf27):
- Armadeus 3 tools for the apf9328 are located at buildroot/build_armv4t/
- Armadeus 3 tools for the apf27 are located at buildroot/build_armv5te/
- Armadeus 2 tools are located at buildroot/build_arm/
- Configurable user-space tools (Linux, rootfs, U-Boot, Busybox...) for your board (apf9328 or apf27):
- Armadeus 3 tools for the apf9328 are located at buildroot/project_build_armv4t/apf9328/
- Armadeus 3 tools for the apf27 are located at buildroot/project_build_armv5te/apf27/
- Armadeus 2 tools are located at buildroot/project_build_arm/armadeus/
- cross compilation toolchain for your board (apf9328 or apf27):
- Armadeus 3 source toolchain for the apf9328 is located at buildroot/toolchain_build_armv4t/
- Armadeus 3 source toolchain for the apf27 is located at buildroot/toolchain_build_armv5te/
- Armadeus 2 toolchain is located at buildroot/toolchain_build_arm/
Keeping these rules in mind, you are ready to use any wiki page as a guideline whatever you are working with: Armadeus 2.x or 3.
How-to obtain the Armadeus 3
The third generation of Armadeus is either available on the GIT repository: git://git.code.sf.net/p/armadeus/code or by download: https://sourceforge.net/project/showfiles.php?group_id=122057
You can checkout the new version of armadeus or update your working version of armadeus. We strongly suggest you to checkout the new version of Armadeus because the new naming convention of files will produce a second directory structure of toolchain, projects, build and image files that could be a source of confusion.
- Checkout the new version:
git clone git://git.code.sf.net/p/armadeus/code armadeus
this commmand will download the latest version of Armadeus.
Remarks: Do not use spaces in the directory name !
- Update your working version of armadeus
WARNING: Do not use a simple "git checkout" because some legacy buildroot patches will break your compilation!
cd armadeus rm -rf buildroot/package rm -rf buildroot/target rm -rf buildroot/toolchain git checkout -f make apf9328_defconfig or make apf27_defconfig
WARNING: the latest command (make <board>_defconfig ) is very important to start with an up to date configuration!
At any time you can cleanup the old directories built with armadeus 2:
rm -rf buildroot/binaries/armadeus rm -rf buildroot/build_arm rm -rf buildroot/project_build_arm rm -rf buildroot/toolchain_build_arm
- How-to obtain the legacy Armadeus 2 (If you're not ready to upgrade your target):
svn co https://armadeus.svn.sourceforge.net/svnroot/armadeus/trunk@914 armadeus2
How-to configure and build Armadeus 3
- After changing the directory to armadeus, you have to configure Armadeus software for the APF target.
cd armadeus/ make '''apf9328_defconfig''' or make '''apf27_defconfig'''
The '<board>_defconfig' configuration option is the first difference with the previous releases of Armadeus.
This configuration has to be done only once after a checkout or after an update from an older version Armadeus. This command configures Armadeus for the apf board then launches the regular Buildroot configuration menu:
- Configure Armadeus
In System configuration ---> Armadeus Device Support menu, you can check and change the quantity of RAM available on your Armadeus board. (Default value 16MB is just fine with all APF9328 boards and 64MB for the smallest apf27).
In Filesystem images --> for each type of filesystems to build you have the option to copy the binary file to secondary location like your tftp server folder (for exemple /tftpboot).
In Bootloaders --> You will find U-Boot options at the end of this menu including the option to copy U-Boot to a secondary location like /tftpboot
In Kernel --> Destination for linux kernel binaries --> You will find options to copy linux to a secondary location like /tftpboot
- Exit the configuration tool and save your configuration
- Launch the build process and enjoy a cup of coffee for the next hour
make
The toolchain is built automatically. During this procedure, several files are downloaded from Internet. Please wait for a while.... it takes at least one hour to compile everything!
- Enjoy the result
The generated binary files can be found in the new subdirectory buildroot/binaries/<board>/:
- apf9328-u-boot.brec (apf9328 BRecord image that can be used with the bootstrap, if U-Boot is not installed or not working, see BootLoader page)
- <board>-u-boot.bin (U-Boot image file to be used with U-Boot itself, see updating U-Boot)
- <board>-linux.bin (Linux image to use with U-Boot, see InstallLinux)
- <board>-rootfs.arm.jffs2 (FileSystem/RootFS image to use with U-Boot, see RootFS flashing)
- <board>-rootfs.arm.tar (for an NFS/MMC RootFS, see Booting from NFS & Booting from a MMC/SD)
Please note the new naming convention of binary files and directories
The toolchain and project files share a new nameing convention too:
- buildroot/build_armv<x>t (contains all non configurable user-space tools)
- buildroot/project_build_armv<x>t/<board> (contains all configurable user-space tools: target filesystem, linux, busybox and u-boot...)
- buildroot/toolchain_build_armv<x>t (cross compilation toolchain)
More information is available in the buildroot documentation
- Prepare binary images for download
The simplest method to prepare binary files for a download to target is to copy them in the tftpboot public directory (for example /tftpboot). You can do it manually:
cp -f buildroot/binaries/<board>/* /tftpboot
Or you can configure buildroot to copy the image files automatically as described hereabove in Configure Armadeus.
From here we will suppose all the image files are available at the root of your tftp server
How-to upgrade the apf9328 target
To prepare the upgrade of the target you have to copy binary files from buildroot/binaries/apf9328/ to your /tftpboot folder or make this process automatic using the command: make menuconfig. The communication with target is fully compatible with previous versions of Armadeus, as explained in communicate with the target
update U-Boot (on the target)
Using the command printenv check the target IP variables:
BIOS> printenv bootcmd=run jffsboot bootdelay=20 ... gatewayip=192.168.0.1 netmask=255.255.255.0 ipaddr=192.168.0.10 serverip=192.168.0.2
ipaddr is the target IP address and serverip is the one of the Host PC running the tftp server. The page Target_Software_Installation will help you to set these variables.
If everything is fine you should be ready to download the new release of u-boot:
- Load the new U-Boot code in RAM
You can use the following commands to download U-boot:
With Ethernet and a TFTP server:
BIOS> tftpboot 08000000 apf9328-u-boot.bin
dm9000 i/o: 0x15c00000, id: 0x90000a46 DM9000: running in 16 bit mode MAC: 00:1e:ac:00:00:02 operating at 100M full duplex mode TFTP from server 192.168.0.2; our IP address is 192.168.0.10 Filename 'apf9328-u-boot.bin'. Load address: 0x8000000 Loading: ################################## done Bytes transferred = 173036 (2a3ec hex)
Or with Ethernet and a NFS server:
BIOS> nfs 08000000 ${serverip}:/nfs_path_to_buildroot/binaries/apf9328/apf9328-u-boot.bin
Or with the kermit and a serial line
BIOS> loadb 08000000 <CTRL><ALT GR>\ c send path_to_buildroot/binaries/apf9328/apf9328-u_boot.bin c
- Test the downloaded version of u-boot
BIOS> go 08000000 ## Starting application at 0x08000000 ... U-Boot 1.3.4 (Dec 2 2008 - 18:44:41) apf9328 patch 3.3 I2C: ready DRAM: 16 MB Flash: 8 MB In: serial Out: serial Err: serial Hit any key to stop autoboot: 0 BIOS>
- Transfer code from RAM to Flash memory
There is a simple U-Boot command/script to do that:
BIOS> run flash_uboot .. done Un-Protected 2 sectors .. done Erased 2 sectors Copy to Flash... done .. done Protected 2 sectors Flashing uboot succeed BIOS>
Advanced informations can be found at the BootLoader wiki page.
- Reset the environment variables and reset the board
Note: This is important to support the new flash memory mapping. !! You will loose all the variables you had defined before !!
BIOS> run flash_reset_env . done Un-Protected 1 sectors . done Erased 1 sectors Erasing of flash environment variables done! BIOS>
And do not forget to reset the board by hardware or software.
BIOS> reset U-Boot 1.3.4 (Dec 2 2008 - 18:44:41) apf9328 patch 3.3 I2C: ready DRAM: 16 MB Flash: 8 MB ...
update linux and rootfs (on the target)
- Check and set the IP variables:
BIOS> printenv bootcmd=run jffsboot bootdelay=20 ... gatewayip=192.168.0.1 netmask=255.255.255.0 ipaddr=192.168.0.10 serverip=192.168.0.2
ipaddr is the target IP address and serverip is the one of the Host PC running the tftp server. The page Target_Software_Installation will help you to set these variables.
You can use the dhcp command to automatically configure these variables from your DHCP server. You probably will have to adjust the serverip variable manually.
BIOS> dhcp dm9000 i/o: 0x15c00000, id: 0x90000a46 MAC: 00:0e:32:00:00:02 operating at 100M full duplex mode BOOTP broadcast 1 DHCP client bound to address 192.168.0.10 BIOS> setenv serverip 192.168.0.2 BIOS> saveenv
Do not forget to save your changes in FLASH, to have them available at next power up:
BIOS> saveenv
- Update Linux (still on the target)
Using the new release of U-Boot, it is quite simple to update Linux kernel and rootfs using the news scripts included in the release:
BIOS> run update_kernel
dm9000 i/o: 0x15c00000, id: 0x90000a46 DM9000: running in 16 bit mode MAC: 00:1e:ac:00:00:02 operating at 100M full duplex mode TFTP from server 192.168.0.2; our IP address is 192.168.0.10 Filename 'apf9328-linux.bin'. Load address: 0x8000000 Loading: ################################################################# ################################################################# ################################################################# ################################################################# ############################################## done Bytes transferred = 1564776 (17e068 hex) ................ done Erased 16 sectors Copy to Flash... done Flashing kernel succeed
- Update rootfs (still on the target)
BIOS> run update_rootfs
dm9000 i/o: 0x15c00000, id: 0x90000a46 DM9000: running in 16 bit mode MAC: 00:1e:ac:00:00:02 operating at 100M full duplex mode TFTP from server 192.168.0.2; our IP address is 192.168.0.10 Filename 'apf9328-rootfs.arm.jffs2'. Load address: 0x8000000 Loading: ################################################################# ################################################################# ################################################################# ################################################################# ################################################################# ################################################################# ################################################################# ################################################################# ################################################################# ################################################################# ################################################################# ###################################################### done Bytes transferred = 3932160 (3c0000 hex) ........................................... done Erased 43 sectors Copy to Flash... done Flashing rootfs succeed BIOS>
update your fpga firmware (on the target)
Please follow the standard procedure Firmware installation
How-to develop with Armadeus / customize your SDK
Your new Armadeus 3 is running fine on the target. Now you probably would like to customize the target for your project.
If you are a Buildroot user, the following instructions should sound familiar.
How-to add a software package
Use the command make menuconfig':
$ make menuconfig
Select your package in the menu "package", save the configuration and compile a new rootfs
$ make
Note: For a given release, not all packages are tested/running. You can consult the list of the working packages here. |
On the target, download and flash the new rootfs:
BIOS> run update_rootfs ... BIOS> boot
How-to remove a package
Supposing you would like to remove an unwanted package from the target.
- The first step is to use the command make menuconfig to unselect this package but this command will not remove the package from the rootfs. You have to use the clean command of buildroot. In the lines hereafter replace the word <package> with the real name of your package.
$ make menuconfig ... deselect your <package> $ make <package>-clean $ make
Your new rootfs is now ready to use - Enjoy
- Some packages do not support any uninstall behavior. In such a case you can rebuild your environment using the global clean command. This command requests to compile almost everything and therefore will take time.
$ make menuconfig ... deselect your <package> $ make clean $ make
Warning: Using this method you will lose any modification you could have done directly in the directory buildroot/project_build_armvYY/apfXX/root.
Please read the chapter How-to modify root filesystem hereafter. |
Your new rootfs is ready to use - Enjoy
- A faster method exists to force to rebuild rootfs. You can delete the root directory. Unfortunately some libraries (ie c++ lib) are not reinstalled using this method.
$ make menuconfig ... deselect your <package> $ rm -rf buildroot/project_build_armv4t/apf9328/root $ rm -rf buildroot/project_build_armv4t/apf9328/.root $ make
Warning: Using this method you will lose any modification you could have done directly in the directory buildroot/project_build_armvYY/apfXX/root.
Please read the chapter How-to modify root filesystem hereafter. |
Your new rootfs is ready to use - Enjoy
How-to modify a software
You would like to modify a package and test your modification on the target. The command make <package>-clean will force to rebuild the package you modified:
$ make <package>-clean $ make
Your new rootfs is ready to use - Enjoy
How-to create a buildroot package
The creation of a new buildroot package is described more in depth in the specific wiki page Buildroot_Packages and in the buildroot documentation
How-to modify root filesystem
There are different methods to modify the rootfs of the apf9328:
- modify files directly on the target (ideal solution for first trials)
- modify files in buildroot/project_build_armv4t/apf9328/root/ (to validate your modification with armadeus)
- modify files in buildroot/target/device/aramdeus/rootfs/target_skeleton (your modifcation will support a make clean )
- create a patch file in armadeus/patches (your modification will support a git checkout)
How-to modify Linux kernel
To rebuild the kernel or any kernel driver you can use the command make linux26-clean; make. please note the new package name use by buildroot for Linux: linux26
$ make linux26-clean $ make
your new Linux kernel and rootfs containing drivers are ready to use - Enjoy
There is another method to rebuild the kernel faster than the previous one:
$ make linux26 $ make
With this method only the modified files are compiled.
How-to configure a Linux kernel
There is a command to modify the linux kernel configuration:
$make linux26-menuconfig
Modify your kernel configuration, save your change and rebuild Armadeus in few seconds:
$make
How-to configure U-Boot
you can change the U-Boot configuration using the buildroot command make menuconfig. U-Boot options are in the sub-menu target filesystem options. In order to rebuild U-Boot with new options it is necessary to remove U-Boot first:
$make menuconfig ... $make u-boot-dirclean $make
Warning: the command make u-boot-dirclean delete the U-Boot directory and any modification you did in this directory. |
How-to modify U-Boot
To rebuild U-Boot you can use the command make u-boot-clean; make.
$ make u-boot-clean $ make
your new U-Boot is ready to use - Enjoy
If you modify the config file apf9328.h located in buildroot/project_build_armv4t/apf9328/u-boot-1.3.4/include/configs/apf9328.h, then we suggest you to rebuild the whole u-boot package:
$ make u-boot-distclean $ make
How-to configure busybox
It also possible to modify the Busybox configuration to add or remove some features:
$make busybox-menuconfig
To be continued...