Repartitioning NAND Flash with JFFS2 for Linux

From wiki.emacinc.com
Revision as of 09:42, 12 April 2013 by Tstratman (talk | contribs) (added additional details)
Jump to: navigation, search

Many of EMAC's ARM processor-based systems utilize NAND flash with JFFS2 filesystems. On these systems, the NAND flash is partitioned using the Linux MTD "Command line partition table parsing" feature. This allows the partition table for the flash to be specified on the kernel command line passed from the bootloader. By default, EMAC OE NAND flash images provide one partition for the root filesystem mounted read-only, and a second read/write auxiliary partition mounted on /root. This article describes how to modify the partition table and how to utilize and configure additional partitions.

Command Line Partition Table

EMAC OE NAND flash-based systems utilize MTD command line partition table parsing to specify the partition table for the flash. This is different from what you may be used to with other disks where the partition table is stored in the MBR. When the system is booted, the kernel looks at the partition table specified and creates device nodes corresponding to each partition at the given size or offset. These can be accessed like any other partition, but no information about the actual partition table is stored on the disk itself.

A brief description of the format and options for the partition table command line taken from the drivers/mtd/Kconfig is listed below:

The format for the command line is as follows:

mtdparts=<mtddef>[;<mtddef]
<mtddef>  := <mtd-id>:<partdef>[,<partdef>]
<partdef> := <size>[@offset][<name>][ro]
<mtd-id>  := unique id used in mapping driver/device
<size>    := standard linux memsize OR "-" to denote all
remaining space
<name>    := (NAME)

Due to the way Linux handles the command line, no spaces are
allowed in the partition definition, including mtd id's and partition
names.

Although the kernel command line is specified in the bootloader (the bootargs variable in U-Boot), the command line can be viewed through the /proc/cmdline file on a running Linux system. The example below illustrates the command line on a system. Note that the settings on your system will most likely differ from the configuration here depending on the required size for the root filesystem, processor type, and other variables.

root@emac-oe:~# cat /proc/cmdline
console=ttyS0,115200 root=/dev/mtdblock0 mtdparts=atmel_nand:128M(root),-(aux) ro rootfstype=jffs2 video=AMPIRE

In the example above, the mtdparts parameter specifies the partition table for one device: atmel_nand. This device name will vary depending on the type of processor on the board and the flash driver name. The first partition is 128MB and is named "root". Following that is a partition named "aux" which takes up the remaining space on the flash.

One method for viewing which device nodes correspond to each of these partitions is to view the /proc/mtd file. The partition names specified in the command line are reflected in the /proc/mtd contents as shown below. In this example, you can see that mtd0 corresponds to "root", and mtd1 corresponds to "aux". The remaining devices on this system are on the SPI DataFlash device, which uses a hard-coded partition table.

root@emac-oe:~# cat /proc/mtd
dev:    size   erasesize  name
mtd0: 08000000 00020000 "root"
mtd1: 08000000 00020000 "aux"
mtd2: 00042000 00000210 "df_boot"
mtd3: 00210000 00000210 "df_kernel"
mtd4: 001ce000 00000210 "df_aux"

The /etc/fstab file specifies how the NAND flash partitions should be mounted. For example, the system used for this example contains the following entries for the NAND flash partitions:

/dev/mtdblock0       /                    jffs2      ro                    0  0
/dev/mtdblock1       /root                jffs2      rw                    0  0

This configures the system to mount the root filesystem read-only, and to mount the "aux" partition read/write on /root.

The usage statistics for each filesystem can be viewed through the df command as listed below. This information can be helpful in determining the size requirements for the root partition.

root@emac-oe:~# df -h
Filesystem                Size      Used Available Use% Mounted on
/dev/root               128.0M     90.8M     37.2M  71% /
udev                     61.5M     76.0K     61.4M   0% /dev
media                     2.0M         0      2.0M   0% /media
/dev/mmcblk0p1            1.8G      2.3M      1.8G   0% /media/mmcblk0p1
/dev/mtdblock1          128.0M      3.0M    125.0M   2% /root
tmpfs                    61.5M     88.0K     61.4M   0% /var/volatile
tmpfs                    61.5M         0     61.5M   0% /dev/shm

Changing the Mount Point of the Auxiliary Partition

If existing partition scheme is acceptable for your application but you want to use the auxiliary partition for data logging rather than general storage and development, the easiest solution is to simply change the mount point of the second partition.