Difference between revisions of "Loading JFFS2 Images Onto a Board"
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[[Creating JFFS2 Images]] | [[Creating JFFS2 Images]] | ||
− | == General == | + | == General Information == |
+ | Before attempting to program an target, a serial connection is required to access the board's bootloader. | ||
− | + | === Using U-Boot === | |
+ | Refer to the following pages for instructions on accessing U-Boot on the serial console: | ||
+ | [[U-Boot Overview]] | ||
+ | [[Loading Images with U-Boot]] | ||
− | + | From the U-Boot prompt it is possible to set target's IP address dynamically using DHCP: | |
+ | <syntaxhighlight lang="console"> | ||
+ | U-Boot> set autoload no | ||
+ | U-Boot> dhcp | ||
+ | </syntaxhighlight> | ||
− | + | The target's IP can also be manually set using the <code>ipaddr</code> environment variable as follows: | |
+ | <syntaxhighlight lang="console"> | ||
− | + | U-Boot> set ipaddr 192.168.0.101 | |
+ | </syntaxhighlight> | ||
− | ' | + | |
− | + | Once the target IP is set, the TFTP server's IP address must be specified: | |
− | -- | + | <syntaxhighlight lang="console"> |
+ | |||
+ | U-Boot> set serverip 192.168.0.100 | ||
+ | </syntaxhighlight> | ||
+ | |||
+ | The configuration of the bootloader environment can be checked at any time using the <code>printenv</code> command. | ||
+ | |||
+ | |||
+ | As described in [[Loading Images with U-Boot]], the JFFS2 image will then be loaded into SDRAM programmed into flash. Below a full example will be provide for the SoM-9G45 | ||
+ | |||
+ | === Using Redboot === | ||
+ | Refer to the following page for instructions on accessing Redboot on the serial console and loading images: | ||
+ | [[Loading Images with RedBoot]] | ||
=== Full Examples === | === Full Examples === |
Revision as of 12:50, 11 December 2013
Contents
Background
Journalling Flash File System version 2 or JFFS2 is a log-structured file system used on flash memory devices. JFFS2 images are typically created on a development PC and deployed to an embedded target using TFTP commands from the target's bootloader. Deployment requires both serial and Ethernet connections to the board along with a TFTP server set up on your development machine.
For instructions on installing a TFTP server on your development PC: Installing TFTP server
For details on connecting to the serial port for an embedded target: Serial Connections
JFFS2 file systems are available for download on EMAC's FTP site. We really, really, really need to update our public FTP site
For instructions on creating a JFFS2 file system image see the following page: Creating JFFS2 Images
General Information
Before attempting to program an target, a serial connection is required to access the board's bootloader.
Using U-Boot
Refer to the following pages for instructions on accessing U-Boot on the serial console: U-Boot Overview Loading Images with U-Boot
From the U-Boot prompt it is possible to set target's IP address dynamically using DHCP:
U-Boot> set autoload no
U-Boot> dhcp
The target's IP can also be manually set using the ipaddr
environment variable as follows:
U-Boot> set ipaddr 192.168.0.101
Once the target IP is set, the TFTP server's IP address must be specified:
U-Boot> set serverip 192.168.0.100
The configuration of the bootloader environment can be checked at any time using the printenv
command.
As described in Loading Images with U-Boot, the JFFS2 image will then be loaded into SDRAM programmed into flash. Below a full example will be provide for the SoM-9G45
Using Redboot
Refer to the following page for instructions on accessing Redboot on the serial console and loading images: Loading Images with RedBoot
Full Examples
Show some examples of performing every step, from start to boot. Our most common products would be best to use for this, so the 9g45 and the 9G20, I believe, would be the best ones to show.
This would also be a good place to note that they may have to change their video settings for their board, or set other kernel commandline arguments. You can link them to documentation for the kernel for this. The video settings information would be good to have in the quick reference section below, though. A quick reference by carrier type section, for our standard carriers, would be a good place for this. Also, anything else that you can think of that might be specific to a carrier should be there. Alternatively, maybe we should have a different page for this. That way, we could share it across different pages for different image types. If you choose that route, then the page will need to be "bragged about" here, so that people will be sure to look at the page rather than e-mailing us, "my screen doesn't work." You will probably also want to figure out a better formatting than the quick bit I added here.
Quick Reference (By Target Type)
SoM-9260M
U-Boot> tftp 0x20000000 som-9260m-rootfs.jffs2
U-Boot> protect off all
U-Boot> erase 0x10400000 0x11ffffff
U-Boot> cp.b 0x20000000 0x10400000 ${filesize}
SoM-9G20M
U-Boot> tftp 0x20000000 som-9g20m-rootfs.jffs2
U-Boot> nand erase
U-Boot> nand write.jffs2 0x20000000 0x0 ${filesize}
SoM-9G45M
U-Boot> tftp 0x74000000 som-9g45m-rootfs.jffs2
U-Boot> nand erase
U-Boot> nand write.jffs2 0x74000000 0x0 ${filesize}
SoM-9M10M
U-Boot> tftp 0x74000000 som-9m10m-rootfs.jffs2
U-Boot> nand erase
U-Boot> nand write.jffs2 0x74000000 0x0 ${filesize}
SoM-9307M
Redboot> fis unlock -f 0x60000000 -l 0x1fdffff
Redboot> load -r -v -b 0x300000 -h 10.0.2.60 som-9307m-rootfs.jffs2
Redboot> fis create -b 0x300000 -l 0x1c00000 jffs2
IPAC-9302
Redboot> fis unlock -f 0x60000000 -l 0x1fdffff
Redboot> load -r -v -b 0x300000 -h 10.0.2.60 ipac-9302-rootfs.jffs2
Redboot> fis create -b 0x300000 -l 0x1c00000 jffs2