Difference between revisions of "Loading Linux Images to a Compact Flash Disk"
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− | The output of the <code>dmesg</code> command tells us that the root device node for the Compact Flash card in this case is <code> | + | The output of the <code>dmesg</code> command tells us that the root device node for the Compact Flash card in this case is <code>sdc</code>, and that only partition found is <code>sdc1</code>. Inspect the output shown above to see where this information came from. The <code>/dev/</code> prefix will go before the device name, but is not shown in the output. The letters you are looking to see will start with either <code>sd</code> or <code>hd</code>. The third letter will specify which of these devices is assigned to the CF Card. |
* At this point, it is wise to double check to ensure you have the correct device node for the Compact Flash card. Specifying the wrong device node could cause a complete loss of data on your hard drive. It is very important to be extremely careful when specifying the device node for the Compact Flash.<br /><br /> Continuing with <code>/dev/sdc1</code> as our example device node, type the following command: | * At this point, it is wise to double check to ensure you have the correct device node for the Compact Flash card. Specifying the wrong device node could cause a complete loss of data on your hard drive. It is very important to be extremely careful when specifying the device node for the Compact Flash.<br /><br /> Continuing with <code>/dev/sdc1</code> as our example device node, type the following command: | ||
Revision as of 10:32, 27 November 2013
When changing firmware images or creating custom firmware images for your Compact Flash-based machine, it is necessary to perform a few steps to load the firmware image onto the CF card.
Contents
Necessary Tools
To perform this procedure, you will need to have the following items:
- The Compact Flash card you wish to use to hold the firmware.
- A Compact Flash card reader attached to your computer.
- The firmware image.
- A fully functional Linux desktop.
- The package management tools installed:
tar
, and eithergzip
orbzip2
(depending on the image). - The EMAC package which provides the
put-image
script. TheREADME.TXT
file in the package details out the steps needed to install the script properly.
The put-image
script, and its associated tools, can be downloaded from EMAC's Subversion Repository.
The script and its tools can be downloaded, if you have svn (Subversion) installed, by running the following command in a terminal:
svn co https://svn.emacinc.com/public/EMAC-OE-2009.03-STABLE/trunk/contrib/put-image/
When you run the above command, you should see something like this:
developer@ldc:~$ svn co https://svn.emacinc.com/public/EMAC-OE-2009.03-STABLE/trunk/contrib/put-image/
A put-image/date2stamp
A put-image/stamp2date
A put-image/datediff
A put-image/put-image
A put-image/lilo-22.8.sbin.static.tgz
A put-image/README.TXT
Checked out revision 175.
developer@ldc:~$
WARNING: Performing the following procedure incorrectly can cause a catastrophic loss of data. The individual steps should be carefully studied prior to attempting the procedure for the first time. EMAC cannot be responsible for the loss of data which may result from incorrectly following this procedure. EMAC strongly recommends having a current backup of the data on your computer before attempting this procedure. Use it at your own risk. |
Procedure
Perform the following steps to load the firmware onto your Compact Flash card:
- Insert the Compact Flash card into your card reader.
- Navigate (from within the shell) to the directory which contains the firmware image you wish to use.
- Determine where the Compact Flash card was mounted:
developer@ldc:~$ dmesg | tail -n 10
[23236.042944] sdc: detected capacity change from 4110188544 to 0
[23243.783467] sd 12:0:0:0: [sdc] 8027712 512-byte logical blocks: (4.11 GB/3.82 GiB)
[23243.785199] sd 12:0:0:0: [sdc] No Caching mode page present
[23243.785204] sd 12:0:0:0: [sdc] Assuming drive cache: write through
[23243.787314] sd 12:0:0:0: [sdc] No Caching mode page present
[23243.787326] sd 12:0:0:0: [sdc] Assuming drive cache: write through
[23243.790625] sdc: sdc1
[23244.290093] kjournald starting. Commit interval 5 seconds
[23244.293646] EXT3-fs (sdc1): using internal journal
[23244.293651] EXT3-fs (sdc1): mounted filesystem with ordered data mode
developer@ldc:~$
The output of the dmesg
command tells us that the root device node for the Compact Flash card in this case is sdc
, and that only partition found is sdc1
. Inspect the output shown above to see where this information came from. The /dev/
prefix will go before the device name, but is not shown in the output. The letters you are looking to see will start with either sd
or hd
. The third letter will specify which of these devices is assigned to the CF Card.
- At this point, it is wise to double check to ensure you have the correct device node for the Compact Flash card. Specifying the wrong device node could cause a complete loss of data on your hard drive. It is very important to be extremely careful when specifying the device node for the Compact Flash.
Continuing with/dev/sdc1
as our example device node, type the following command:
developer@ldc:~$ mount | grep sdc1
/dev/sdc1 on /media/EMAC-OE type ext3 (rw,nosuid,nodev,uhelper=udisks)
This shows us that the device node, /dev/sdc1
, is in fact our Compact Flash card. We know this because:
- It is not mounted on one of the standard Linux filesystem mountpoints, such as
/
,/boot
,/usr
, or/home
. - It is mounted in the
/media
directory, where we expect it. We may alternatively expect to see it mounted in/mnt
, depending upon the configuration of the Linux distribution in use.
NOTE: Not all Linux distributions will have automount enabled. If automount is not enabled, the device will not automatically be mounted when it is inserted into a card reader.For those unfamiliar with the term mount , mount ing a device means the operating system associates one or more file paths with the filesystem(s) contained within the partition(s) of the mount ed device. |
- Use
fdisk -l
to inspect the device node:
developer@ldc:~$ sudo fdisk -l /dev/sdc
Disk /dev/sdc: 4009 MB, 4009549824 bytes
77 heads, 56 sectors/track, 1816 cylinders, total 7831152 sectors
Units = sectors of 1 * 512 = 512 bytes
Sector size (logical/physical): 512 bytes / 512 bytes
I/O size (minimum/optimal): 512 bytes / 512 bytes
Disk identifier: 0x00090707
Device Boot Start End Blocks Id System
/dev/sdc1 62 7831151 3915545 83 Linux
developer@ldc:~$
NOTE: The sudo command is needed to run the fdisk command as root . If you are running as the root user, then you will not need to use the sudo command. |
TIP: As can be seen from the output of the fdisk -l command above, the disk is 4009 MB in size, which corresponds with the size of the 4 GB Compact Flash being used in this example. |
- The device to specify for the boot argument must also be determined prior to putting the image onto the Compact Flash card. If you downloaded the firmware image from EMAC, there should be a text file associated with the image which tells you which device to specify for this. If you have built your own custom image, you should use the same boot device as you used with firmware from EMAC. In this example, we're using hardware which specifies /dev/hdc for the boot device.
- Now, run the put-image script:
developer@ldc:~$ /path/to/put-image --root=/dev/sdc --boot=/dev/hdc emac-firmware-image.tar.gz