Difference between revisions of "IoTGateway/BSP/Linux/iMX6/Yocto LBV8 User Guide"
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:The tarball/prebuilt image name is consist of the model name followed by "LB" or "LI" plus version number and released date. | :The tarball/prebuilt image name is consist of the model name followed by "LB" or "LI" plus version number and released date. | ||
− | :For example, | + | :For example, '''imx6LBV8010_2016-12-28.tgz''' which , "LB" is acronym of <span style="color:#ff0000">'''L'''</span>inux <span style="color:#ff0000">'''B'''</span>SP, "V8010" stands for <span style="color:#ff0000">'''V'''</span>ersion <font color="#ff0000">'''8'''</font>.<span style="color:#ff0000">'''010'''</span><nowiki>.</nowiki> |
− | + | :For example, '''4410A1LIV8010_DualQuad_2016-06-23.img.gz''' which "4410A1" stands for RSB-<span style="color:#ff0000">'''4410 A1'''</span>,"LI" is acronym for prebuilt <span style="color:#ff0000">'''L'''</span>inux <span style="color:#ff0000">'''I'''</span>mage, DualQuad means this image is fit for Dual Core/Quad Core. | |
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=== <span style="color:#0070c0">BSP tarball</span> === | === <span style="color:#0070c0">BSP tarball</span> === |
Revision as of 10:36, 11 January 2017
Contents
- 1 Getting Started
- 2 Customization
- 3 System Recovery
Getting Started
Conventions
${PREBUILT_IMAGE} : compressed prebuilt image (*.img.gz)
${BSP_TARBALL} : BSP tarball (*.tgz)
${BSP_HOME} : home directory of the BSP
${BDIR} : build directory (e.g. build_x11)
${MX6PROC} : i.MX6 Processor
- mx6q for iMX6 Quad Core / Dual Core
- mx6dl for iMX6 Dual Lite / Solo
${IMX6PROC} : i.MX6 Processor
- imx6q / imx6dl
${BOARD} : available target boards list below
- rom5420/ / rom7421 / ubc220 / rom3420 / rom7420 / rsb4410 / rsb4411 / ubcds31 / wise3310
${BOARD_REV} : board revision
- a1 / a2 / b1
${MC} : machine code combined with ${IMX6PROC}${BOARD}${BOARD_REV}
- for example,
- imx6dlrom5420b1 for ROM-5420-Solo B1
- imx6dlrom7421a1 for ROM-7421-Solo A1
- imx6dlubc220a1 for UBC-220-Dual-Light A1
- imx6qprom7421a1 for ROM-7421-Dual/Quad-Plus A1
- imx6qrom3420a1 for ROM-3420-Dual/Quad A1
- imx6qrom5420a1 for ROM-5420-Dual/Quad A1
- imx6qrom5420b1 for ROM-5420-Dual/Quad B1
- imx6qrom7420a1 for ROM-7420-Dual/Quad A1
- imx6qrsb4410a1 for RSB-4410-Dual A1
- imx6qrsb4410a2 for RSB-4410-Dual A2
- imx6qrsb4411a1 for RSB-4411-Dual/Quad A1
- imx6qubcds31a1 for UBC-DS31-Dual A1
- imx6qwise3310a1 for WISE-3310-Dual A1
${MEM_SIZE} : memory size
- 1G / 2G / 512M
${SD_DEVICE} : device name of SD card in Linux (e.g. /dev/sdf)
${SDCARD_IMAGE} : sdcard image built by bitbake (*.sdcard)
${UBOOT} :u-boot version(e.g. 2015.04)
${KERNEL} : linux kernel version(e.g. 4.1.15)
${TOOLCHAIN} : toolchain installed directory(e.g. /opt/fsl-imx-x11/4.1.15-2.0.0)
debug console / serial console
- serial terminal program (e.g. minicom, putty, teraterm ...) that serial port is configured to 115200 8N1
terminal console
- terminal program (e.g. gnome-terminal, xfce4-terminal ...)
Docker install and setting
If you don't have docker in your system, then you can follow the below steps to install docker and run it first.
To install Docker Engine on your platform
- Please refer to Docker Installation Guide for details
To pull ubuntu 12.04 image from Docker Hub
$ docker pull advrisc/u12.04-imx6lbv3
To create container
$ docker run --privileged --name imx6LBV8010 -it -v ${SD_DEVICE}:${SD_DEVICE} advrisc/u12.04-imx6lbv3 /bin/bash
Get BSP
- You have two methods to put BSP into container created above
Method 1:Copy BSP tarball to Container
- If you have BSP tarball (eg. imx6LBV8010_2017-01-05.tgz), then you have to copy it into container.
Follow the steps below:
1.Exit container and back to local machine
$ exit
2.Copy BSP tarball to container
$ docker cp imx6LBV8010_2017-01-05.tgz imx6LBV8010:/home/adv
3.Back to container
$ docker start imx6LBV8010 $ docker attach imx6LBV8010
4.Unpack BSP tarball
$ tar zxvf imx6LBV8010_2017-01-05.tgz
Method 2:Download BSP From GitHub
- The following example shows how to download the Advantech Yocto BSP from GitHub.
For this example, a directory called adv-release-bsp is created for the project.
- Refer to IoTGateway/BSP/Linux/iMX6/OS Support List new , Official version "imx6LBV8010" is taken as an example :
$ mkdir adv-release-bsp $ cd adv-release-bsp $ repo init -u git://github.com/ADVANTECH-Corp/adv-arm-yocto-bsp.git -b imx-4.1-krogoth -m imx6LBV8010.xml $ repo sync
Introducing BSP
- The BSP is based on Yocto Project with Freescale enhanced features for i.MX6, plus specific target board features from Advantech Inc..
- The Advantech Yocto Project BSP Release directory contains a "sources" directory, which contains the recipes used to build,
one or more build directories, and a set of scripts used to set up the environment.
- The recipes used to build the project come from both the community and Advantech. The Yocto Project layers are downloaded
to the sources directory. This sets up the recipes that are used to build the project.
Naming Rule
- The tarball/prebuilt image name is consist of the model name followed by "LB" or "LI" plus version number and released date.
- For example, imx6LBV8010_2016-12-28.tgz which , "LB" is acronym of Linux BSP, "V8010" stands for Version 8.010.
- For example, 4410A1LIV8010_DualQuad_2016-06-23.img.gz which "4410A1" stands for RSB-4410 A1,"LI" is acronym for prebuilt Linux Image, DualQuad means this image is fit for Dual Core/Quad Core.
BSP tarball
- Unpack BSP tarball to home directory by performing the following command:
$ tar xvf ${BSP_TARBALL} -C ~/
Prebuilt image
- Perform the following command to build one boot-up SD card
$ gunzip -c ${PREBUILT_IMAGE} | dd of=${SD_DEVICE} bs=1M
Build Instructions
To create one new build environment
- Perform the following commands in terminal console
$ cd ${BSP_HOME}
$ MACHINE=${MC} source fsl-setup-release.sh -b ${BDIR} -e x11
- You need to read and accept the EULA.
To continue an exist build environment
- Perform the following commands in terminal console
$ cd ${BSP_HOME}
$ source setup-environment ${BDIR}
To build sdcard image
- To create/continue a build environment
- Perform the following command in terminal console
$ bitbake fsl-image-qt5
- The file, fsl-image-qt5-${MC}.sdcard, will be located in directory, ./tmp/deploy/images/${MC}, while building process finished successfully.
To build toolchain installer
- To create/continue a build environment
- Perform the following command in terminal console
$ bitbake meta-toolchain-qt5
- The below installer will be located in the directory "./tmp/deploy/sdk".
- fsl-imx-x11-glibc-x86_64-meta-toolchain-qt5-cortexa9hf-vfp-neon-toolchain-${KERNEL}-1.1.0.sh
- fsl-imx-x11-glibc-x86_64-meta-toolchain-qt5-cortexa9hf-vfp-neon-toolchain-${KERNEL}-1.1.0.sh
To build u-boot
- To create/continue a build environment
- Perform the following command in terminal console
$ bitbake u-boot-imx
- The two files, u-boot_crc.bin & u-boot_crc.bin.crc, will be located in the directory, ./tmp/deploy/images/${MC}.
To build linux kernel
- To create/continue a build environment
- Perform the following command in terminal console
- to show up menuconfig
$ bitbake linux-imx -c menuconfig
- to do build
$ bitbake linux-imx
- to show up menuconfig
- The two files, zImage & zImage-${IMX6PROC}-${BOARD}-${BOARD_REV}.dtb, will be located in the directory, ./tmp/deploy/images/${MC}.
Creating boot-up on-board flash from prebuilt image
To create one boot-up SD card
- Perform the following command in terminal console
$ gunzip -c ${PREBUILT_IMAGE | dd of=${SD_DEVICE} bs=1M
To transfer whole system to on-board flash
- Boot up from SD card
- Perform the following commands in debug console
# cd /mk_inand
# ./mksd-linux.sh /dev/mmcblk0
- press y followed by Enter, if following message shows up:
- While "[Done]" shows up means the transferring is finished.
Creating boot-up on-board flash from built sdcard image
To create one boot-up SD card
- Perform the following commands in terminal console
$ pushd ${BSP_HOME}/${BDIR}/tmp/deploy/images/${MC}
$ dd if=${SDCARD_IMAGE} of=${SD_DEVICE} bs=1M
$ popd
To transfer whole system to on-board flash
- Boot up from SD card
- Insert USB stick that contains ${SDCARD_IMAGE}, USB stick will be auto mounted to /run/media/sda1.
- Perform the following commands in debug console
# umount /dev/mmcblk0p?
# cd /run/media/sda1
# dd if=${SDCARD_IMAGE} of=/dev/mmcblk0 bs=4M conv=fsync
# P2START=$(fdisk -lu | grep mmcblk0p2 | awk '{print $2}')
# echo -e "d\n2\nn\np\n2\n${P2START}\n\nw\n" | fdisk -u /dev/mmcblk0
# umount /dev/mmcblk0p2
# e2fsck -f -y /dev/mmcblk0p2
# resize2fs /dev/mmcblk0p2
# poweroff
Customization
Package addition
To add tcf-agent & openssh-sftp-server
- Navigate to the directory where fsl-image-adv.inc located
$ cd ${BSP_HOME}/sources/meta-advantech/recipes-fsl/images
- Add following line to fsl-image-adv.inc
IMAGE_INSTALL += " tcf-agent openssh-sftp-server "
- Continue an exist build environment and build sdcard image
To add chromium browser
- Navigate to the directory where local.conf located
$ cd ${BSP_HOME}/${BDIR}/conf
- Add following two lines to local.conf
CORE_IMAGE_EXTRA_INSTALL += "chromium"
LICENSE_FLAGS_WHITELIST="commercial"
- Continue an exist build environment and build sdcard image
Setting up SDK
- Please follow the section,To build toolchain installer, to build one toolchain installer
- Perform the following command in terminal console
$ cd ${BSP_HOME}/${BDIR}/tmp/deploy/sdk
$ sudo ./fsl-imx-x11-glibc-x86_64-meta-toolchain-qt5-cortexa9hf-vfp-neon-toolchain-${KERNEL}-1.1.0.sh
- Enter new installed directory or just press
Enter
to use default directory. - While
Proceed[y/n]?
shows up, please enter the correct one. - Waiting for the SDK installed (while the following messages show up completely)
Setting up cross compiling environment
- SDK has been set up (ref. Setting up SDK)
- Perform the following command in terminal console
$ source ${TOOLCHAIN}/environment-setup-cortexa9hf-vfp-neon-poky-linux-gnueabi
Building & updating u-boot manually
To build u-boot
- The cross compiling environment has been set up. (ref. Setting up cross compiling environment)
- Make one copy from Yocto working directory
$ mkdir -p ~/code
$ pushd ${BSP_HOME}/${BDIR}/tmp/work/${MC}-poky-linux-gnueabi/
$ rm -rf ~/code/u-boot-imx
$ cp -a ./u-boot-imx/${UBOOT}-r0/git ~/code/u-boot-imx
$ popd
- Configure u-boot
$ cd ~/code/u-boot-imx
$ make distclean
$ make ${MX6PROC}${BOARD}${BOARD_REV}_${MEM_SIZE}_config
- Start building u-boot
$ make -j4 LDFLAGS=
- The two files, u-boot-crc.bin & u-boot-crc.bin.crc, are located in directory "~/code/u-boot-imx".
To update u-boot to target device
- Perform the following command to transfer to exist boot-up SD card
$ dd if=u-boot_crc.bin.crc of=${SD_DEVICE} bs=512 seek=2 conv=fsync
$ dd if=u-boot-crc.bin of=${SD_DEVICE} bs=512 seek=3 conv=fsync
- Make sure new u-boot does work then perform the following commands to transfer to on-board flash
# dd if=u-boot_crc.bin.crc of=/dev/mmcblk0 bs=512 seek=2 conv=fsync
# dd if=u-boot-crc.bin of=/dev/mmcblk0 bs=512 seek=3 conv=fsync
Building & updating kernel/modules/dtb manually
To build kernel/modules/dtb
- The cross compiling environment has been set up. (ref. Setting up cross compiling environment)
- Make one copy from Yocto working directory
$ mkdir -p ~/code
$ pushd ${BSP_HOME}/${BDIR}/tmp/work-shared/${MC}/
$ rm -rf ~/code/linux-imx
$ cp -a ./kernel-source ~/code/inux-imx
$ popd
- Configure linux kernel
$ cd ~/code/linux-imx
$ make distclean
$ make imx_v7_adv_defconfig
$ make menuconfig PKG_CONFIG_SYSROOT_DIR= PKG_CONFIG_PATH=
- Start building linux kernel
$ make -j4 zImage LOADADDR=0x10008000 LDFLAGS=
- The kernel image file, zImage, is located in the directory "./arch/arm/boot/".
- Start building kernel modules
$ make -j4 modules LDFLAGS=
- Copy all modules to a temporary rootfs directory, "~/temp/rootfs"
$ make modules_install INSTALL_MOD_PATH=~/temp/rootfs
- Start building device tree blob
$ make -j4 ${IMX6PROC}-${BOARD}-${BOARD_REV}.dtb
- The device tree blob, ${IMX6PROC}-${BOARD}-${BOARD_REV}.dtb, is located in the directory "./arch/arm/boot/dts/".
To update kernel/modules/dtb to target device
- Copy zImage & ${IMX6PROC}-${BOARD}-${BOARD_REV}.dtb to the 1st partition of SD card
- Copy modues to the 2nd partition of SD card.
- Make sure all new linux kernel, device tree and kernel modules work well, then copy all of them to the on-board flash
System Recovery
Please refer to Creating boot-up on-board flash from prebuilt image / sdcard image to create a boot-up SD card and transfer whole system to on-board flash.