Difference between revisions of "Target Software Installation"
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* Check that your Armadeus rootfs image size is smaller than the rootfs partition (see [[#Flash_memory_partitions|Flash Memory Partitions]] for size allowances): | * Check that your Armadeus rootfs image size is smaller than the rootfs partition (see [[#Flash_memory_partitions|Flash Memory Partitions]] for size allowances): | ||
<pre class="host"> | <pre class="host"> | ||
− | [armadeus]$ ls -al buildroot/binaries/ | + | [armadeus]$ ls -al buildroot/binaries/XX/ |
... | ... | ||
− | [armadeus]$ cp buildroot/binaries/ | + | [armadeus]$ cp buildroot/binaries/XX/XX-rootfs.arm.jffs2 /tftpboot/ |
</pre> | </pre> | ||
* Load rootfs image with U-Boot through network: | * Load rootfs image with U-Boot through network: | ||
<pre class="apf"> | <pre class="apf"> | ||
− | BIOS> tftpboot ${loadaddr} | + | BIOS> tftpboot ${loadaddr} XX-rootfs.arm.jffs2 |
</pre> | </pre> | ||
− | For large rootfs (bigger than the available RAM on your system) please use this method ( | + | For large rootfs (bigger than the available RAM on your system) please use this method (not supported on the APF9328): |
<pre class="apf"> | <pre class="apf"> | ||
− | BIOS> tftpboot ${rootfs_offset} | + | BIOS> tftpboot ${rootfs_offset} XX-rootfs.arm.jffs2 nand |
</pre> | </pre> | ||
Line 148: | Line 148: | ||
BIOS> loadb ${loadaddr} | BIOS> loadb ${loadaddr} | ||
''Ctrl+Altgr+\+c to access kermit command line then...'' | ''Ctrl+Altgr+\+c to access kermit command line then...'' | ||
− | (/home/.../) C-Kermit>send path_to_your_host_buildroot_dir/ | + | (/home/.../) C-Kermit>send path_to_your_host_buildroot_dir/XX-rootfs.arm.jffs2 |
''After download is completed, you can type the c command to reconnect to the terminal:'' | ''After download is completed, you can type the c command to reconnect to the terminal:'' | ||
(/home/.../) C-Kermit>c | (/home/.../) C-Kermit>c |
Revision as of 12:19, 2 March 2011
On this page you will learn how to flash new U-Boot, Linux and rootfs images on your APF module.
Contents
Configure U-Boot
Environment variables
U-Boot can be customized in a flexible way with the use of "environment variables/scripts". The command printenv shows you most of them and their current value:
BIOS> printenv bootcmd=run jffsboot bootdelay=20 baudrate=115200 ethaddr= autoload=no ...
The command setenv is used to change these variables. For example, to set the IP address (don't do it yet):
BIOS> setenv ipaddr 192.168.0.10
The command saveenv is used to save the state of your environment variables in FLASH memory; that way they will be available at next boot:
BIOS> saveenv Saving Environment to Flash... . done Un-Protected 1 sectors Erasing Flash... . done Erased 1 sectors Writing to Flash... done . done Protected 1 sectors
Network configuration
In order to use the U-Boot's network features, you have to set the network environment variables:
BIOS> setenv netmask 255.255.255.0 (this default value should be fine in most situations) BIOS> setenv ipaddr 192.168.0.10 BIOS> setenv serverip 192.168.0.2 (the IP address of your tftp server/PC hosting the files to download) BIOS> setenv rootpath "/tftpboot/apf9328-root" (to boot Linux over NFS)
You can use the dhcp command to 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:32:00:00:01 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
In case of troubles you can use the following U-Boot script to reset the variables to the "factory"/default settings:
BIOS> run flash_reset_env
Linux kernel installation
XX, in the following chapters, has to be replaced by your board name
- Check that your Armadeus kernel image size is smaller than the U-Boot partition (see Flash Memory Partitions for size allowances):
[armadeus]$ ls -al buildroot/binaries/XX/
- If yes, copy it to your TFTP server directory (here /tftpboot/):
[armadeus]$ cp buildroot/binaries/XX/XX-linux.bin /tftpboot/
- Load kernel image with U-Boot through network:
BIOS> tftpboot ${loadaddr} XX-linux.bin
or with the serial line:
BIOS> loadb ${loadaddr} ''Ctrl+Altgr+\+c to access kermit command line then:'' (/home/.../) C-Kermit>send /tftpboot/XX-linux.bin ''After download is completed, you can type the c command to reconnect to the terminal:'' (/home/.../) C-Kermit>c Connecting to /dev/ttyUSB0, speed 115200 Escape character: Ctrl-\ (ASCII 28, FS): enabled Type the escape character followed by C to get back, or followed by ? to see other options. ---------------------------------------------------- ## Total Size = 0x0013d0b0 = 1298608 Bytes ## Start Addr = 0x08000000 BIOS>
Warning: If the loaded kernel image is too large, the following operation can destroy data that are stored after the partition limits (e.g. RootFS) |
Check that transfered size value is less than the ones specified here Flash Memory Partitions
Bytes transferred = 1313216 (1409c0 hex)
- You can test your new kernel image without flashing it with; if so you will have to reload it again after test:
BIOS> bootm ${loadaddr}
- a U-Boot script exists to ease kernel image loading through Ethernet:
BIOS> run download_kernel
- After kernel image has been downloaded into RAM memory, you can flash it with:
BIOS> run flash_kernel
- To make it easier, you can use automatic scripts that will download the image and flash it in the same go. So next time you will only launch:
BIOS> run update_kernel
- To know what update_kernel script is doing you can display its content:
BIOS> printenv update_kernel
- If you only want to try a new kernel without flashing the kernel image you can launch it directly from RAM:
BIOS> setenv bootargs ${console} ${mtdparts}; run addjffsargs addipargs; bootm (the kernel image you want to try must have been loaded at ${loadaddr})
rootfs installation
- Check that your Armadeus rootfs image size is smaller than the rootfs partition (see Flash Memory Partitions for size allowances):
[armadeus]$ ls -al buildroot/binaries/XX/ ... [armadeus]$ cp buildroot/binaries/XX/XX-rootfs.arm.jffs2 /tftpboot/
- Load rootfs image with U-Boot through network:
BIOS> tftpboot ${loadaddr} XX-rootfs.arm.jffs2
For large rootfs (bigger than the available RAM on your system) please use this method (not supported on the APF9328):
BIOS> tftpboot ${rootfs_offset} XX-rootfs.arm.jffs2 nand
or serial line:
BIOS> loadb ${loadaddr} ''Ctrl+Altgr+\+c to access kermit command line then...'' (/home/.../) C-Kermit>send path_to_your_host_buildroot_dir/XX-rootfs.arm.jffs2 ''After download is completed, you can type the c command to reconnect to the terminal:'' (/home/.../) C-Kermit>c Connecting to /dev/ttyUSB0, speed 115200 Escape character: Ctrl-\ (ASCII 28, FS): enabled Type the escape character followed by C to get back, or followed by ? to see other options. ---------------------------------------------------- ## Total Size = 0x........ ## Start Addr = 0x........ BIOS>
- Flash rootfs image with:
BIOS> run flash_rootfs
- Now you should be ready to test Linux:
BIOS> boot
- To make it easier, you can use automatic scripts. So next time you will only launch:
BIOS> run update_rootfs
FPGA firmware installation
The FPGA firmwares are all located in the firmware/ directory of your Armadeus view:
[armadeus]$ ls firmware/ apf_pkg BRAMTest bus_led led PS2 PS2_Opencore servo sram_test wishbone_example Xtools
You can make some trials with the firmware/PS2/ps2_top.bit file.
Warning: Check that your bitfile size is smaller than the firmware partition size (256KB) before trying the following commands or you may corrupt your Linux kernel FLASH partition !!! |
- Load FPGA firmware image file with U-Boot through:
Ethernet:
BIOS> tftpboot ${loadaddr} fpgafirmware.bit
fpgafirmware.bit is of course the name of your bitfile stored in your TFTP shared directory (/tftpboot/)
or serial line:
BIOS> loadb ${loadaddr} Ctrl+Altgr+\+c to access kermit command line then... C-Kermit> send path_to_your_tftp/fpgafirmware.bit
then you can type the c command to reconnect to the terminal
- Test your new FPGA firmware's downloading:
BIOS> fpga load 0 ${loadaddr} ${firmware_len}
- Flash your firmware image with:
BIOS> run flash_firmware
- When you are satisfied with your firmware, you can make it "autoloaded" at power up:
BIOS> setenv firmware_autoload 1 BIOS> saveenv
Update U-Boot
There are two steps to update 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 ${loadaddr} apf9328-u-boot.bin
- With Ethernet and a NFS server:
BIOS> nfs ${loadaddr} host_ip_addr:/nfs_path_to_buildroot/apf9328-u-boot.bin
- With kermit and the serial/RS232 line
BIOS> loadb ${loadaddr} <CTRL><ALT GR>\ c send path_to_buildroot/apf9328-u-boot.bin c<ENTER>
Transfer code from RAM to Flash memory
There is a simple U-Boot command/script to do that:
BIOS> run flash_uboot
Advanced informations can be found at the BootLoader wiki page.
Flash memory partitions
APF9328 Flash memory partitions
Armadeus 2.x address range (index from FLASH physical @ 0x10000000) |
Armadeus 3 address range (index from FLASH physical @ 0x10000000) |
Type |
---|---|---|
0x000000 - 0x03FFFF ( 256KB ) | 0x000000 - 0x03FFFF ( 256KB ) | U-Boot |
0x040000 - 0x5FFFF ( 128KB ) | 0x040000 - 0x5FFFF ( 128KB ) | U-Boot environment variables |
0x060000 - 0x9FFFF ( 256KB ) | 0x060000 - 0x9FFFF ( 256KB ) | FPGA bitfile |
0x0A0000 - 0x21FFFF ( 1.5MB ) | 0x0A0000 - 0x29FFFF ( 2MB ) | Linux kernel image |
0x220000 - End of FLASH ( ~6 MB or ~14MB ) | 0x2A0000 - End of FLASH ( ~5.5 MB or ~13.5MB ) | Root filesystem |
APF27 Flash memory partitions
NAND flash address range | Type |
---|---|
0x00000000 - 0x0009FFFF (640KB, including NAND SPL and 384KB spare memory for bad blocks) | U-Boot |
0x000A0000 - 0x000FFFFF (384KB) | U-Boot environment variables |
0x00100000 - 0x0017FFFF (512KB) | FPGA bitfile |
0x00180000 - 0x0067FFFF (5MB) | Linux kernel image |
0x00680000 - End of FLASH (>~250MB) | Root filesystem |