Difference between revisions of "CL-SOM-iMX6UL: Yocto Linux: Getting started"

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(Install on the NAND flash)
 
 
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* Obtain a PC workstation with a serial communication port.
 
* Obtain a PC workstation with a serial communication port.
 
* For networked installation you need to install a TFTP server on the host PC. For Windows machines we recommend [http://tftpd32.jounin.net/ TFTPD32] included in the Linux package for CL-SOM-iMX6UL (link below).
 
* For networked installation you need to install a TFTP server on the host PC. For Windows machines we recommend [http://tftpd32.jounin.net/ TFTPD32] included in the Linux package for CL-SOM-iMX6UL (link below).
* Download the Linux package for CL-SOM-iMX6UL from [http://compulab.co.il/products/computer-on-modules/cl-som-imx6ul/#devres CompuLab website]. Unzip the package to a directory on your host workstation.
+
* Download the Linux package for CL-SOM-iMX6UL from [http://www.compulab.com/products/computer-on-modules/cl-som-imx6ul-freescale-imx6-ultralite-system-on-module/#devres CompuLab website]. Unzip the package to a directory on your host workstation.
 
* All image files mentioned below can be found in the {{filename|images}} subdirectory.
 
* All image files mentioned below can be found in the {{filename|images}} subdirectory.
 
* Connect the host PC to the SBC-iMX6UL base-board (connector P8) via the serial cable supplied with the evaluation kit.
 
* Connect the host PC to the SBC-iMX6UL base-board (connector P8) via the serial cable supplied with the evaluation kit.
Line 20: Line 20:
  
 
=== Using installation environment on MMC/SD card ===
 
=== Using installation environment on MMC/SD card ===
* Copy {{filename|kernel.img}}, {{filename|imx6ul-sbc-imx6ul.dtb}}, {{filename|ramdisk.img}} and {{filename|bootscr.img}} from [http://compulab.co.il/products/computer-on-modules/cl-som-imx6ul/#devres Linux package for CL-SOM-iMX6UL] to the root directory on the first partition of the MMC/SD card. The partition can be formatted either ext2/3/4 or FAT file system.
+
* Copy {{filename|kernel.img}}, {{filename|imx6ul-sbc-imx6ul.dtb}}, {{filename|ramdisk.img}} and {{filename|bootscr.img}} from [http://www.compulab.com/products/computer-on-modules/cl-som-imx6ul-freescale-imx6-ultralite-system-on-module/#devres Linux package for CL-SOM-iMX6UL] to the root directory on the first partition of the MMC/SD card. The partition can be formatted either ext2/3/4 or FAT file system.
 +
* Ensure jumper presence on SB-SOM-iMX6UL P5-25 and P5-26 pins, to select SDCARD via on board SDIO mux.
 
* Insert the MMC/SD card into the SD socket (P6) on the SBC-iMX6UL.
 
* Insert the MMC/SD card into the SD socket (P6) on the SBC-iMX6UL.
 
* Use the following U-Boot commands to boot the installation environment on the CL-SOM-iMX6UL configuration:
 
* Use the following U-Boot commands to boot the installation environment on the CL-SOM-iMX6UL configuration:
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=== Using installation environment on USB storage ===
 
=== Using installation environment on USB storage ===
* Copy {{filename|kernel.img}}, {{filename|imx6ul-sbc-imx6ul.dtb}} and {{filename|ramdisk.img}} from [http://compulab.co.il/products/computer-on-modules/cl-som-imx6ul/#devres Linux package for CL-SOM-iMX6UL] to the root directory on the first partition of the USB storage. The partition can be formatted either ext2/3/4 or FAT file system.
+
* Copy {{filename|kernel.img}}, {{filename|imx6ul-sbc-imx6ul.dtb}} and {{filename|ramdisk.img}} from [http://www.compulab.com/products/computer-on-modules/cl-som-imx6ul-freescale-imx6-ultralite-system-on-module/#devres Linux package for CL-SOM-iMX6UL] to the root directory on the first partition of the USB storage. The partition can be formatted either ext2/3/4 or FAT file system.
 
* Insert the USB storage into a USB port on the SBC-iMX6UL.
 
* Insert the USB storage into a USB port on the SBC-iMX6UL.
 
* Use the following U-Boot commands to boot the installation environment on a CL-SOM-iMX6UL configuration:
 
* Use the following U-Boot commands to boot the installation environment on a CL-SOM-iMX6UL configuration:
Line 53: Line 54:
 
=== Using installation environment from TFTP server ===
 
=== Using installation environment from TFTP server ===
 
* Connect the CL-SOM-iMX6UL Ethernet port (connector P9 marked as "CM ETHERNET" on the SBC-iMX6UL) to your local network.
 
* Connect the CL-SOM-iMX6UL Ethernet port (connector P9 marked as "CM ETHERNET" on the SBC-iMX6UL) to your local network.
* Put {{filename|'''kernel.img'''}}, {{filename|'''imx6ul-sbc-imx6ul.dtb'''}} and {{filename|'''ramdisk.img'''}} from [http://compulab.co.il/products/computer-on-modules/cl-som-imx6ul/#devres Linux package for CL-SOM-iMX6UL] to a location accessible by the TFTP server:
+
* Put {{filename|'''kernel.img'''}}, {{filename|'''imx6ul-sbc-imx6ul.dtb'''}} and {{filename|'''ramdisk.img'''}} from [http://www.compulab.com/products/computer-on-modules/cl-som-imx6ul-freescale-imx6-ultralite-system-on-module/#devres Linux package for CL-SOM-iMX6UL] to a location accessible by the TFTP server:
 
*: - On Windows machine: copy {{filename|'''kernel.img'''}}, {{filename|'''imx6ul-sbc-imx6ul.dtb'''}} and {{filename|'''ramdisk.img'''}} to the same folder and point the TFTP server to that folder
 
*: - On Windows machine: copy {{filename|'''kernel.img'''}}, {{filename|'''imx6ul-sbc-imx6ul.dtb'''}} and {{filename|'''ramdisk.img'''}} to the same folder and point the TFTP server to that folder
 
*: - On Linux machine: copy {{filename|'''kernel.img'''}}, {{filename|'''imx6ul-sbc-imx6ul.dtb'''}} and {{filename|'''ramdisk.img'''}} to the TFTP server root directory, usually {{filename|'''/tftpboot'''}} or {{filename|'''/tftproot'''}}.
 
*: - On Linux machine: copy {{filename|'''kernel.img'''}}, {{filename|'''imx6ul-sbc-imx6ul.dtb'''}} and {{filename|'''ramdisk.img'''}} to the TFTP server root directory, usually {{filename|'''/tftpboot'''}} or {{filename|'''/tftproot'''}}.
Line 87: Line 88:
 
=== Yocto Image ===
 
=== Yocto Image ===
  
The latest [http://compulab.co.il/products/computer-on-modules/cl-som-imx6ul/#devres Linux package for CL-SOM-iMX6UL] contain a Yocto Linux rootfs image:
+
The latest [http://www.compulab.com/products/computer-on-modules/cl-som-imx6ul-freescale-imx6-ultralite-system-on-module/#devres Linux package for CL-SOM-iMX6UL] contain a Yocto Linux rootfs image:
 
* {{filename|fsl-image-gui-cl-som-imx6ul.tar.bz2}}
 
* {{filename|fsl-image-gui-cl-som-imx6ul.tar.bz2}}
  
 
=== Mount an MMC/SD Card ===
 
=== Mount an MMC/SD Card ===
* Copy the {{filename|fsl-image-gui-cl-som-imx6ul.tar.bz2}}, {{filename|imx6ul-sbc-imx6ul.dtb}}, {{filename|imx6ul-sbc-imx6ul-wilink.dtb}}, and the {{filename|zImage-cl-som-imx6ul}} from the [http://compulab.co.il/products/computer-on-modules/cl-som-imx6ul/#devres Yocto Linux package for CL-SOM-iMX6UL] to the root directory of any partition on the MMC/SD card. The partition can be formatted as either ext2/3/4 or FAT file system.
+
* Copy the {{filename|fsl-image-gui-cl-som-imx6ul.tar.bz2}}, {{filename|imx6ul-sbc-imx6ul.dtb}}, {{filename|imx6ul-sbc-imx6ul-wilink.dtb}}, and the {{filename|zImage-cl-som-imx6ul}} from the [http://www.compulab.com/products/computer-on-modules/cl-som-imx6ul-freescale-imx6-ultralite-system-on-module/#devres Yocto Linux package for CL-SOM-iMX6UL] to the root directory of any partition on the MMC/SD card. The partition can be formatted as either ext2/3/4 or FAT file system.
 +
* Ensure jumper presence on SB-SOM-iMX6UL P5-25 and P5-26 pins, to select SDCARD via on board SDIO mux.
 
* Insert the MMC/SD card into the SD socket (P9) on the SBC-iMX6UL.
 
* Insert the MMC/SD card into the SD socket (P9) on the SBC-iMX6UL.
 
* The MMC/SD card is mounted automatically under {{filename|/media/mmcblk0p'''X'''}}. Where '''X''' is the partition number.
 
* The MMC/SD card is mounted automatically under {{filename|/media/mmcblk0p'''X'''}}. Where '''X''' is the partition number.
Line 101: Line 103:
  
 
=== Mount a USB Storage Device ===
 
=== Mount a USB Storage Device ===
* Copy the {{filename|fsl-image-gui-cl-som-imx6ul.tar.bz2}}, {{filename|imx6ul-sbc-imx6ul.dtb}}, {{filename|imx6ul-sbc-imx6ul-wilink.dtb}}, and the {{filename|zImage-cl-som-imx6ul}} from the [http://compulab.co.il/products/computer-on-modules/cl-som-imx6ul/#devres Yocto Linux package for CL-SOM-iMX6UL] to the root directory of any partition on the USB storage device. The partition can be formatted as either ext2/3/4 or FAT file system.
+
* Copy the {{filename|fsl-image-gui-cl-som-imx6ul.tar.bz2}}, {{filename|imx6ul-sbc-imx6ul.dtb}}, {{filename|imx6ul-sbc-imx6ul-wilink.dtb}}, and the {{filename|zImage-cl-som-imx6ul}} from the [http://www.compulab.com/products/computer-on-modules/cl-som-imx6ul-freescale-imx6-ultralite-system-on-module/#devres Yocto Linux package for CL-SOM-iMX6UL] to the root directory of any partition on the USB storage device. The partition can be formatted as either ext2/3/4 or FAT file system.
 
* Plug the USB storage device to the lower port on the dual USB host connector P6 of the SBC-iMX6UL.
 
* Plug the USB storage device to the lower port on the dual USB host connector P6 of the SBC-iMX6UL.
 
{{Note|SBC-iMX6UL jumper {{parameter|E7}} must be open}}
 
{{Note|SBC-iMX6UL jumper {{parameter|E7}} must be open}}
Line 113: Line 115:
 
=== Mount an NFS drive ===
 
=== Mount an NFS drive ===
 
* Connect the CL-SOM-iMX6UL Ethernet port (connector P21 on the SBC-iMX6UL) to your local network.
 
* Connect the CL-SOM-iMX6UL Ethernet port (connector P21 on the SBC-iMX6UL) to your local network.
* Copy the {{filename|fsl-image-gui-cl-som-imx6ul.tar.bz2}}, {{filename|imx6ul-sbc-imx6ul.dtb}}, {{filename|imx6ul-sbc-imx6ul-wilink.dtb}}, and the {{filename|zImage-cl-som-imx6ul}} from the [http://compulab.co.il/products/computer-on-modules/cl-som-imx6ul/#devres Linux package for CL-SOM-iMX6UL] to a directory exported through NFS.
+
* Copy the {{filename|fsl-image-gui-cl-som-imx6ul.tar.bz2}}, {{filename|imx6ul-sbc-imx6ul.dtb}}, {{filename|imx6ul-sbc-imx6ul-wilink.dtb}}, and the {{filename|zImage-cl-som-imx6ul}} from the [http://www.compulab.com/products/computer-on-modules/cl-som-imx6ul-freescale-imx6-ultralite-system-on-module/#devres Linux package for CL-SOM-iMX6UL] to a directory exported through NFS.
 
* Obtain an IP address for the CL-SOM-iMX6UL:
 
* Obtain an IP address for the CL-SOM-iMX6UL:
 
** Using DHCP:<pre>root@compulab:~# ifup `basename /sys/devices/platform/enet.0/net/eth?`</pre>
 
** Using DHCP:<pre>root@compulab:~# ifup `basename /sys/devices/platform/enet.0/net/eth?`</pre>
Line 178: Line 180:
  
 
==== Install on MMC/SD or eMMC ====
 
==== Install on MMC/SD or eMMC ====
 +
{{Note|CL-SOM-iMX6UL pin 21 must be connected to GND (Install jumper on SB-SOM-iMX6UL P5-25 and P5-26 pins).}}
 
{{Note|The below procedure will work on an empty MMC device only.<br>If you have already used the MMC device, please delete all the partitions before proceeding.}}
 
{{Note|The below procedure will work on an empty MMC device only.<br>If you have already used the MMC device, please delete all the partitions before proceeding.}}
 
* Define an environment variable that describes an MMC/SD device:
 
* Define an environment variable that describes an MMC/SD device:

Latest revision as of 13:00, 27 March 2017

Introduction

This article provides an introduction on how to install the Debian example root filesystem image on the CompuLab CL-SOM-iMX6UL System-on-Module / Computer-on-Module NAND or eMMC internal storage devices.

Preparation steps

  • Obtain a PC workstation with a serial communication port.
  • For networked installation you need to install a TFTP server on the host PC. For Windows machines we recommend TFTPD32 included in the Linux package for CL-SOM-iMX6UL (link below).
  • Download the Linux package for CL-SOM-iMX6UL from CompuLab website. Unzip the package to a directory on your host workstation.
  • All image files mentioned below can be found in the images subdirectory.
  • Connect the host PC to the SBC-iMX6UL base-board (connector P8) via the serial cable supplied with the evaluation kit.
  • Start the terminal emulation software on your PC. Set baud rate to 115200 bps, 8 bit per frame, 1 stop bit, no parity, no flow control.
  • Turn on the CL-SOM-iMX6UL evaluation system. The U-Boot boot-loader will start and you will get a command prompt.
Admolition note.png If the boot settings of your CL-SOM-iMX6UL are different than the default, you may need to press and hold Ctrl-C while turning the CL-SOM-iMX6UL on, in order to get command prompt.

Boot into the installation environment (ramdisk)

The first step in CL-SOM-iMX6UL Linux installation is starting the installation environment (Linux kernel and Ramdisk image). This can be done using the following media:

Using installation environment on MMC/SD card

  • Copy kernel.img, imx6ul-sbc-imx6ul.dtb, ramdisk.img and bootscr.img from Linux package for CL-SOM-iMX6UL to the root directory on the first partition of the MMC/SD card. The partition can be formatted either ext2/3/4 or FAT file system.
  • Ensure jumper presence on SB-SOM-iMX6UL P5-25 and P5-26 pins, to select SDCARD via on board SDIO mux.
  • Insert the MMC/SD card into the SD socket (P6) on the SBC-iMX6UL.
  • Use the following U-Boot commands to boot the installation environment on the CL-SOM-iMX6UL configuration:
CL-SOM-iMX6UL # mmc dev 0
CL-SOM-iMX6UL # mmc rescan
CL-SOM-iMX6UL # load mmc 0 ${loadaddr} bootscr.img
CL-SOM-iMX6UL # source ${loadaddr}

Using installation environment on USB storage

  • Copy kernel.img, imx6ul-sbc-imx6ul.dtb and ramdisk.img from Linux package for CL-SOM-iMX6UL to the root directory on the first partition of the USB storage. The partition can be formatted either ext2/3/4 or FAT file system.
  • Insert the USB storage into a USB port on the SBC-iMX6UL.
  • Use the following U-Boot commands to boot the installation environment on a CL-SOM-iMX6UL configuration:
CL-SOM-iMX6UL # usb start
CL-SOM-iMX6UL # load usb 0 ${loadaddr} bootscr.img
CL-SOM-iMX6UL # source ${loadaddr}
  • Use the following U-Boot commands to boot the installation environment on a CL-SOM-iMX6UL configuration:
CL-SOM-iMX6UL # setenv fdt_file imx6ul-sbc-imx6ul.dtb
CL-SOM-iMX6UL # setenv ramdisk_addr 0x82000000
CL-SOM-iMX6UL # setenv bootargs 'root=/dev/ram0 ramdisk_size=16384 console=ttymxc2,115200'
CL-SOM-iMX6UL # usb start
CL-SOM-iMX6UL # load usb 0 ${load_addr} kernel.img && load usb 0 ${fdt_addr} ${fdt_file} && load usb 0 ${ramdisk_addr} ramdisk.img
CL-SOM-iMX6UL # bootz ${load_addr} ${ramdisk_addr} ${fdt_addr}

Using installation environment from TFTP server

  • Connect the CL-SOM-iMX6UL Ethernet port (connector P9 marked as "CM ETHERNET" on the SBC-iMX6UL) to your local network.
  • Put kernel.img, imx6ul-sbc-imx6ul.dtb and ramdisk.img from Linux package for CL-SOM-iMX6UL to a location accessible by the TFTP server:
    - On Windows machine: copy kernel.img, imx6ul-sbc-imx6ul.dtb and ramdisk.img to the same folder and point the TFTP server to that folder
    - On Linux machine: copy kernel.img, imx6ul-sbc-imx6ul.dtb and ramdisk.img to the TFTP server root directory, usually /tftpboot or /tftproot.
  • You can use U-Boot dhcp command to obtain an IP address or manually set ipaddr environment variable:
CL-SOM-iMX6UL # setenv ipaddr <CL-SOM-iMX6UL ip address>
  • Set the serverip environment variable:
CL-SOM-iMX6UL # setenv serverip <tftp server host ip address>
  • Use the following U-Boot commands to boot Linux on CL-SOM-iMX6UL:
CL-SOM-iMX6UL # setenv fdt_file imx6ul-sbc-imx6ul.dtb
CL-SOM-iMX6UL # setenv ramdisk_addr 0x82000000
CL-SOM-iMX6UL # setenv bootargs 'root=/dev/ram0 rw ramdisk_size=16384 console=ttymxc2,115200 ip=dhcp'
CL-SOM-iMX6UL # tftpboot ${load_addr} kernel.img && tftpboot ${fdt_addr} ${fdt_file} && tftpboot ${ramdisk_addr} ramdisk.img
CL-SOM-iMX6UL # bootz ${load_addr} ${ramdisk_addr} ${fdt_addr}

Install Kernel and Yocto Linux Images

After the ramdisk image is loaded the Linux login prompt will appear. Login as root into the system. Use 111111 password for login:

compulab login: root
Password: 111111

The next step is installing the kernel and Yocto Linux images. The following media can be used as a source for installation:

Yocto Image

The latest Linux package for CL-SOM-iMX6UL contain a Yocto Linux rootfs image:

  • fsl-image-gui-cl-som-imx6ul.tar.bz2

Mount an MMC/SD Card

  • Copy the fsl-image-gui-cl-som-imx6ul.tar.bz2, imx6ul-sbc-imx6ul.dtb, imx6ul-sbc-imx6ul-wilink.dtb, and the zImage-cl-som-imx6ul from the Yocto Linux package for CL-SOM-iMX6UL to the root directory of any partition on the MMC/SD card. The partition can be formatted as either ext2/3/4 or FAT file system.
  • Ensure jumper presence on SB-SOM-iMX6UL P5-25 and P5-26 pins, to select SDCARD via on board SDIO mux.
  • Insert the MMC/SD card into the SD socket (P9) on the SBC-iMX6UL.
  • The MMC/SD card is mounted automatically under /media/mmcblk0pX. Where X is the partition number.
  • If for some reason the MMC/SD card hasn't been mounted automatically, use the following mount command:
root@compulab:~# mkdir -p /media/mmcblk0pX && mount /dev/mmcblk0pX /media/mmcblk0pX

Mount a USB Storage Device

  • Copy the fsl-image-gui-cl-som-imx6ul.tar.bz2, imx6ul-sbc-imx6ul.dtb, imx6ul-sbc-imx6ul-wilink.dtb, and the zImage-cl-som-imx6ul from the Yocto Linux package for CL-SOM-iMX6UL to the root directory of any partition on the USB storage device. The partition can be formatted as either ext2/3/4 or FAT file system.
  • Plug the USB storage device to the lower port on the dual USB host connector P6 of the SBC-iMX6UL.
Admolition note.png SBC-iMX6UL jumper E7 must be open
  • The USB device is mounted automatically under /media/sdXY. Where X is the device letter and Y is the partition number.
  • If for some reason the USB storage device hasn't been mounted automatically, use the following mount command:
root@compulab:~# mkdir -p /media/sdXY && mount /dev/sdXY /media/sdXY

Mount an NFS drive

  • Connect the CL-SOM-iMX6UL Ethernet port (connector P21 on the SBC-iMX6UL) to your local network.
  • Copy the fsl-image-gui-cl-som-imx6ul.tar.bz2, imx6ul-sbc-imx6ul.dtb, imx6ul-sbc-imx6ul-wilink.dtb, and the zImage-cl-som-imx6ul from the Linux package for CL-SOM-iMX6UL to a directory exported through NFS.
  • Obtain an IP address for the CL-SOM-iMX6UL:
    • Using DHCP:
      root@compulab:~# ifup `basename /sys/devices/platform/enet.0/net/eth?`
    • If you do not have a DHCP server, you can set a static IP address using ifconfig:
      root@compulab:~# ifconfig `basename /sys/devices/platform/enet.0/net/eth?` <ip address>
  • Mount the NFS share containing the zImage-cl-som-imx6ul and the fsl-image-gui-cl-som-imx6ul.tar.bz2 files:
root@compulab:~# mount -o nolock <host ip>:/path/to/nfs/share /mnt/net

Install Images

  • In this subsection the term /mount/point can be:
    • /mnt/net if NFS is used
    • /media/mmcblk0pX if an MMC/SD card is used, where X is the partition number.
    • /media/sdXY if USB storage is used, where X is the USB drive letter and Y is the partition number.

Once the ramdisk image is loaded and the media containing the CL-SOM-iMX6UL Kernel and Yocto Linux images is mounted, the installation can be done on:

Install on the NAND flash

Admolition warning.png Required media size is at least 1G.
Make sure that the nand device size meets these requirements
  • In this subsection the term /mount/point can be:
    • /mnt/net if NFS is used
    • /media/mmcblk0pX if an MMC/SD card is used, where X is the partition number.
    • /media/sdXY if a USB storage is used, where X is the USB drive letter and Y is the partition number.
  • Select a correct device tree file that meets the configuration requirements:
  • MMC
 root@compulab:~# export fdt_file=imx6ul-sbc-imx6ul.dtb
  • WiFi
 root@compulab:~# export fdt_file=imx6ul-sbc-imx6ul-wifi.dtb
  • Format the NAND flash kernel partition and write the kernel image onto it:
root@compulab:~# flash_erase /dev/mtd3 0 0
root@compulab:~# nandwrite -p /dev/mtd3 /mount/point/zImage-cl-som-imx6ul
root@compulab:~# nandwrite -p /dev/mtd3 -s 0x780000 /mount/point/${fdt_file}
  • Format the NAND flash root filesystem partition:
root@compulab:~# ubiformat /dev/mtd4
  • Attach the NAND flash root filesystem partition:
root@compulab:~# ubiattach -m 4 -d 0
  • Create a ubi volume and name it "rootfs":
root@compulab:~# ubimkvol /dev/ubi0 -m -N rootfs
  • Mount the ubi volume:
root@compulab:~# mkdir -p /media/rootfs && mount -t ubifs ubi0:rootfs /media/rootfs
  • Extract the content of fsl-image-gui-cl-som-imx6ul.tar.bz2 onto the /media/rootfs:
root@compulab:~# tar -xvpjf /mount/point/fsl-image-gui-cl-som-imx6ul.tar.bz2 -C /media/rootfs && sync
  • Unmount the ubi volume:
root@compulab:~# umount /media/rootfs

Install on MMC/SD or eMMC

Admolition note.png CL-SOM-iMX6UL pin 21 must be connected to GND (Install jumper on SB-SOM-iMX6UL P5-25 and P5-26 pins).
Admolition note.png The below procedure will work on an empty MMC device only.
If you have already used the MMC device, please delete all the partitions before proceeding.
  • Define an environment variable that describes an MMC/SD device:

MMC/SD

root@compulab:~# export TARGET_DEVICE=mmcblk0

MMC/SD on a Linux host

Admolition note.png MMC/SD is a removable device.
Thus a Linux host can be used in order to deploy the Kernel and the Yocto Linux rootfs on it.
In this case it is up to the user to figure out what the MMC/SD card device is.

For instance it can be /dev/sdg

root@compulab:~# export TARGET_DEVICE=sdg

eMMC

root@compulab:~# export TARGET_DEVICE=mmcblk1
  • Clean up the on the TARGET_DEVICE:
root@compulab:~# dd if=/dev/zero of=/dev/${TARGET_DEVICE} bs=1M count=1
root@compulab:~# hdparm -z /dev/${TARGET_DEVICE}
  • Create two partitions for the Linux kernel (FAT32 100M) and root file system (EXT4 the rest of the disk) on the MMC device:
root@compulab:~# echo -e "n\np\n1\n\n+100M\na\n1\nt\nc\nn\np\n2\n\n\nw\neof\n" | fdisk /dev/${TARGET_DEVICE}
  • Adjust the TARGET_DEVICE name:
root@compulab:~# TARGET_DEVICE=$(awk -v device=${TARGET_DEVICE} 'BEGIN {if (device~/mmc/) {part="p"}; print device part}')
  • Format the first partition with FAT32 file system:
root@compulab:~# mkfs.vfat -n boot /dev/${TARGET_DEVICE}1
  • Format the second partition with EXT4 file system:
root@compulab:~# mkfs.ext4 -L rootfs /dev/${TARGET_DEVICE}2
  • Mount both partitions:
root@compulab:~# mkdir -p /media/boot && mount /dev/${TARGET_DEVICE}1 /media/boot
root@compulab:~# mkdir -p /media/rootfs && mount /dev/${TARGET_DEVICE}2 /media/rootfs
  • Copy zImage-cl-som-imx6ul, imx6ul-sbc-imx6ul.dtb and imx6ul-sbc-imx6ul-wilink.dtb to the first (FAT) partition:
root@compulab:~# cp /mount/point/zImage-cl-som-imx6ul /mount/point/imx6ul*.dtb /media/boot && sync
  • Extract the content of fsl-image-gui-cl-som-imx6ul.tar.bz2 onto the second partition:
root@compulab:~# tar --numeric-owner -xvpjf /mount/point/fsl-image-gui-cl-som-imx6ul.tar.bz2 -C /media/rootfs && sync
  • Unmount both partitions:
root@compulab:~# umount /dev/${TARGET_DEVICE}1
root@compulab:~# umount /dev/${TARGET_DEVICE}2

After Installation

Admolition note.png If the boot settings of the CL-SOM-iMX6UL are different than default, you may need to press and hold Ctrl-C while turning the CL-SOM-iMX6UL on, in order to get command prompt.

Boot Environment

Common Environment Variables

CL-SOM-iMX6UL # setenv bootdelay 3
CL-SOM-iMX6UL # setenv image zImage-cl-som-imx6ul

Configuration Dependent Environment Variables

CL-SOM-iMX6UL makes use of the same interface for the first MMC and a WiFi. These devices can't be used simultaneously, thus two different device tree files are provided.

Admolition warning.png In case that the bootable device is mmc 0, then imx6ul-sbc-imx6ul.dtb must be used.
  • MMC
CL-SOM-iMX6UL # setenv fdt_file imx6ul-sbc-imx6ul.dtb
  • WiFi
CL-SOM-iMX6UL # setenv fdt_file imx6ul-sbc-imx6ul-wilink.dtb

Display Options

SBC-iMX6UL has an option to connect either an LCD or a DVI display.

Below are examples that show how to change the boot environment in order to set the correct interface timing and geometry and work with either an LCD or a DVI display separately.

  • DVI display enable function:
CL-SOM-iMX6UL # setenv dvi+ 'fdt rm lcdif/display/display-timings/lcd'
  • LCD display enable function:
CL-SOM-iMX6UL # setenv lcd+ 'fdt rm lcdif/display/display-timings/dvi'

Storage Device Options

SBC-iMX6UL has an option to use either an eMMC or a NAND as a storage device.
Both devices make use of the same SoC pads. As a result these device can't work simultaneously. Device tree modification allows using one of these devices.

  • NAND enable function:
CL-SOM-iMX6UL # setenv nand+ 'fdt addr ${fdt_addr}; fdt set gpmi status "okay"; fdt set mmc1  status "disabled"'
  • eMMC enable function:
CL-SOM-iMX6UL # setenv emmc+ 'fdt addr ${fdt_addr}; fdt set gpmi status "disabled"; fdt set mmc1  status "okay"'

NAND flash

  • Kernel and device tree loaders:
CL-SOM-iMX6UL # setenv loadimage 'nand read ${loadaddr} 0 800000'
CL-SOM-iMX6UL # setenv loadfdt 'nand read ${fdt_addr} 780000 10000'
  • Set the bootargs environment variable:
CM-FX6 # setenv bootargs 'console=ttymxc2,115200 root=ubi0:rootfs rw rootfstype=ubifs ubi.mtd=rootfs ip=dhcp'

MMC/SD or eMMC

  • mmcdev and fdt_file environment variables:

MMC

CL-SOM-iMX6UL # setenv mmcdev 0
CL-SOM-iMX6UL # setenv fdt_file imx6ul-sbc-imx6ul.dtb

eMMC

CL-SOM-iMX6UL # setenv mmcdev 1
CL-SOM-iMX6UL # setenv fdt_file imx6ul-sbc-imx6ul-wilink.dtb
  • mmcroot environment variable:
CL-SOM-iMX6UL # setenv mmcroot "/dev/mmcblk${mmcdev}p2 rootwait rw"
  • Kernel and device tree loaders:
CL-SOM-iMX6UL # setenv loadimage 'load mmc ${mmcdev}:${mmcpart} ${loadaddr} ${image}'
CL-SOM-iMX6UL # setenv loadfdt 'load mmc ${mmcdev}:${mmcpart} ${fdt_addr} ${fdt_file}'
  • bootargs environment variable:
CL-SOM-iMX6UL # setenv bootargs "console=ttymxc2,115200 root=${mmcroot} ip=dhcp"

Boot command

  • Default boot command:
CL-SOM-iMX6UL # setenv bootcmd 'run loadimage; run loadfdt; bootz ${loadaddr} - ${fdt_addr}'
  • NAND boot command:
CL-SOM-iMX6UL # setenv bootcmd 'run loadimage; run loadfdt; run nand+; bootz ${loadaddr} - ${fdt_addr}'
Admolition note.png Make use of either dvi+ or lcd+ function depends on a desire display type
  • DVI enabled boot command:
CL-SOM-iMX6UL # setenv bootcmd 'run loadimage; run loadfdt; run dvi+; bootz ${loadaddr} - ${fdt_addr}'
  • LCD enabled boot command:
CL-SOM-iMX6UL # setenv bootcmd 'run loadimage; run loadfdt; run lcd+; bootz ${loadaddr} - ${fdt_addr}'
  • To boot Linux, type:
CL-SOM-iMX6UL # saveenv
CL-SOM-iMX6UL # boot

See also