Yocto Build Linux: Difference between revisions

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<!-- Set release according to "release" parameter in URL and use MORTY_BETA_DART-6UL as default
<!-- Set release according to "release" parameter in URL and use RELEASE_MORTY_V1.0_DART-6UL as default
--> {{#vardefine:RELEASE_PARAM|{{#urlget:release}}}} <!--
--> {{INIT_RELEASE_PARAM|RELEASE_MORTY_V1.0_DART-6UL}}<!--
--> {{#lst:Yocto_Platform_Customization|{{#var:RELEASE_PARAM|RELEASE_MORTY_BETA_DART-6UL}}}} <!--
--> {{#lst:Yocto_Platform_Customization|{{#var:RELEASE_PARAM}}}} <!--
--> {{PageHeader|Yocto Build Linux from source code}} {{DocImage|category1={{#var:HARDWARE_NAME}}|category2=Yocto}} __toc__
--> {{#lst:B2QT_Platform_Customization|{{#var:RELEASE_PARAM}}}} <!--
--> {{#lst:Debian_Platform_Customization|{{#var:RELEASE_PARAM}}}} <!--
--> {{#vardefine:PLATFORM_OS|Yocto}} <!--
--> {{#vardefine:WORKDIR|~/{{#var:MACHINE_NAME}}-linux}} <!--
--> {{#vardefine:WORKDIR_ENV|$WORKDIR}}
    {{#vardefine:CUSTOMIZE_LINUX_KERNEL|Yocto Customizing the Linux kernel}} <!-- Default to Yocto
--> {{#varexists:DEBIAN_NAME |
    {{#vardefine:PLATFORM_OS|Debian}} }} <!--
--> {{PageHeader|Build Linux from source code}} {{DocImage|category1=Yocto|category2=Debian}} <!--
--> [[category:{{#var:HARDWARE_NAME}}]] __toc__
{{note|It is recommended to build the kernel image using Yocto (see the {{Varlink|{{#var:CUSTOMIZE_LINUX_KERNEL}}|{{#var:RELEASE_LINK}}|Customizing the Linux kernel}} page) instead of using the direct method described in this page.<br>
This is because some of the Yocto packages may depend on the kernel, like the WiFi module that is built from outside of the kernel source tree on some of the {{#var:PLATFORM_OS}} releases.}}
 
= Toolchain installation for out of Yocto builds =
= Toolchain installation for out of Yocto builds =
To install the toolchain, follow the {{Varlink2|Yocto Toolchain installation|{{#var:RELEASE_LINK}}}} guide.
= Setup the environment: =


To install the toolchain, follow {{Varlink2|Yocto Toolchain installation|{{#var:RELEASE_LINK}}}}.
Setup a working directory
$ export WORKDIR={{#var:WORKDIR}}
$ mkdir ${WORKDIR}


= Build Linux out of Yocto tree =
= Build Linux out of Yocto tree =


Get the Linux source code:
== Fetch {{#var:KERNEL_REPO_NAME}} source code: ==
$ cd {{#var:BUILD_FOLDER}}
 
$ git clone {{#var:KERNEL_GIT}}
{{GIT_FETCH|NAME=KERNEL|WORKDIR={{#var:WORKDIR_ENV}}|USE_BRANCH=y}}
$ cd linux-2.6-imx
 
$ git checkout -b {{#var:KERNEL_BRANCH}} origin/{{#var:KERNEL_BRANCH}}
== Build Kernel, Modules, and DTBs: ==


Build the Linux kernel:
Setup the environment:
  $ source {{#var:TOOLCHAIN_LOCATION}}
  $ source {{#var:TOOLCHAIN_LOCATION}}{{#switch: {{#var:SOC_SERIES}}|imx8|mx93=<br>$ unset LDFLAGS|}}


Clean and prepare the kernel:
$ cd ${WORKDIR}/{{#var:KERNEL_REPO_NAME}}
  $ make mrproper
  $ make mrproper
  $ make {{#var:KERNEL_DEFCONFIG}}
  $ make {{#var:KERNEL_DEFCONFIG}}
Customize the kernel configuration (optional step):
$ make menuconfig
Build kernel parts:
  Build everything:
  Build everything:
  $ make -j4
  $ make -j$(nproc)
 
  Build {{#var:KERNEL_IMAGE}} only:
  Build {{#var:KERNEL_IMAGE}} only:
  $ make -j4 {{#var:KERNEL_BUILD_PARAMS}} {{#var:KERNEL_IMAGE}}
  $ make -j$(nproc) {{#var:KERNEL_BUILD_PARAMS}} {{#var:KERNEL_IMAGE}}
  Build modules only:
  Build modules only:
  $ make -j4 {{#var:KERNEL_BUILD_PARAMS}} modules
  $ make -j$(nproc) {{#var:KERNEL_BUILD_PARAMS}} modules
 
  Build device trees only:
  Build device trees only:
  $ make -j4 dtbs
  $ make -j$(nproc) dtbs
 
<!-- Attach DTB section from specific release-->
<!-- Attach DTB section from specific release-->
{{#lst:Yocto_Platform_Customization|{{#var:KERNEL_DTB_SECTION}}}}
{{#lst:Yocto_Platform_Customization|{{#var:KERNEL_DTB_SECTION}}}}
== Install kernel modules to temporary directory ==
{{#vardefine:KERNEL_ROOTFS|{{#var:WORKDIR_ENV}}/rootfs}}
{{#vardefine:KERNEL_ARCH|{{#switch:{{#var:HARDWARE_NAME}}
    |DART-6UL
    |VAR-SOM-MX7
    |VAR-SOM-MX6=arm
    |#default=arm64
}}}}
Create a temporary directory to install the modules:
Optional: delete any old installation from previous builds:
$ rm -rf {{#var:KERNEL_ROOTFS}}
Create new directory:
$ mkdir -p {{#var:KERNEL_ROOTFS}}
Install the modules to the temporary rootfs:
$ cd ${WORKDIR}/{{#var:KERNEL_REPO_NAME}} && \
  make ARCH={{#var:KERNEL_ARCH}} \
    INSTALL_MOD_STRIP=1 \
    INSTALL_MOD_PATH={{#var:KERNEL_ROOTFS}} \
    modules_install
{{#ifeq: {{#var:WIFI_IW612_SUPPORT}}|yes|
= Build external modules =
== Build and install iw61x wifi driver support to temporary rootfs ==
External kernel modules must be compiled against the exact kernel version (commit ID) that is deployed on the target. Follow the steps below to compile and install the mandatory external drivers for the {{#var:MACHINE_NAME}}.
'''NXP Wi-Fi linux Driver'''
Follow the steps below to compile and install the driver for the NXP iw61x chipset.
Fetch the driver:
{{GIT_FETCH|NAME=NXP_WLAN_SDK|WORKDIR={{#var:WORKDIR_ENV}}|USE_COMMIT=y}}
Build the driver:
$ cd ${WORKDIR}/{{#var:NXP_WLAN_SDK_MAKE_DIR}} &&
  make -j$(nproc) KERNELDIR={{#var:WORKDIR_ENV}}/{{#var:KERNEL_REPO_NAME}}
Install the driver to the temporary modules directory:
$ make -j$(nproc) \
    KERNELDIR=${WORKDIR}/{{#var:KERNEL_REPO_NAME}} \
    -C ${WORKDIR}/{{#var:KERNEL_REPO_NAME}} \
    M=${WORKDIR}/{{#var:NXP_WLAN_SDK_MAKE_DIR}} \
    INSTALL_MOD_PATH=${WORKDIR}/rootfs \
    INSTALL_MOD_STRIP=1 \
    modules_install
}}


Notes:<br>
Notes:<br>
- If you replace the kernel image ({{#var:KERNEL_IMAGE}}) on your system, you also need to reinstall the kernel modules, and vice versa.<br>
{{note|If you replace the kernel image ({{#var:KERNEL_IMAGE}}) on your system, you also need to reinstall the kernel modules, and vice versa.}}
- If you just want to make a change in the device tree, you can compile and replace it without replacing the kernel image and modules.<br>
{{note|If you just want to make a change in the device tree, you can compile and replace it without replacing the kernel image and modules.}}


= Install the built kernel on an SD card =
= Install the built kernel images, modules, and device trees on an SD card =


Copy the {{#var:KERNEL_IMAGE}} and device trees to the SD card boot partition, and install the modules in the SD card rootfs partition.<br>
Copy the {{#var:KERNEL_IMAGE}} and device trees to the SD card boot partition, and install the modules in the SD card rootfs partition.<br>
Assuming the boot partition is mounted on /media/BOOT-{{#var:HARDWARE_NAME}} and the rootfs partition is mounted on /media/rootfs:
Assuming the {{#switch: {{#var:SOC_SERIES}}|imx8|imx9=|boot partition is mounted on /media/user/{{#var:EMMC_FAT_PARTITION_NAME}} and the&nbsp;}}rootfs partition is mounted on /media/user/rootfs:
{{#switch: {{#var:SOC_SERIES}}|imx8|imx9=
<br>
Install the kernel image and modules:
$ cd ${WORKDIR}/{{#var:KERNEL_REPO_NAME}}
$ kver=$(strings arch/arm64/boot/Image <nowiki>|</nowiki> grep -i "Linux version" <nowiki>|</nowiki> awk 'NR==1 {print $3}')
$ sudo cp arch/arm64/boot/{{#var:KERNEL_IMAGE}} /media/user/rootfs/boot/{{#var:KERNEL_IMAGE}}-${kver}
$ sudo ln -fs /boot/{{#var:KERNEL_IMAGE}}-${kver} /media/user/rootfs/boot/{{#var:KERNEL_IMAGE}}
$ sudo cp {{#var:KERNEL_ROOTFS}}/* /media/user/rootfs
Install the device trees:
{{#ifeq: {{#var:YOCTO_NAME}}|Morty|$ for dtb in arch/arm64/boot/dts/variscite/*.dtb; do sudo cp $dtb /media/user/rootfs/boot/devicetree-Image.gz-$(basename $dtb); done | $ sudo cp arch/arm64/boot/dts/freescale/*imx*var*.dtb /media/user/rootfs/boot/}}
|=
<br>
Install the kernel image and modules:
$ cd ${WORKDIR}/{{#var:KERNEL_REPO_NAME}}
$ cp arch/arm/boot/{{#var:KERNEL_IMAGE}} /media/user/{{#var:EMMC_FAT_PARTITION_NAME}}
$ sudo cp {{#var:KERNEL_ROOTFS}}/* /media/user/rootfs
Install the device trees:
{{#switch: {{#var:HARDWARE_NAME}}
|DART-6UL=$ sudo cp arch/arm/boot/dts/imx6ul*var*.dtb /media/user/{{#var:EMMC_FAT_PARTITION_NAME}}
|VAR-SOM-MX7=$ sudo cp arch/arm/boot/dts/imx7*var*.dtb /media/user/{{#var:EMMC_FAT_PARTITION_NAME}}
|VAR-SOM-MX6=$ sudo cp arch/arm/boot/dts/{imx6q*var*.dtb,imx6dl*var*.dtb} /media/user/{{#var:EMMC_FAT_PARTITION_NAME}}
}}
 
Notes:<br>
* If you are using our {{Varlink2|{{#var:PLATFORM_OS}} Recovery SD card|{{#var:RELEASE_LINK}}}}, and you want the NAND flash/eMMC installation process to be updated as well as the SD card boot itself, you need to also update the /opt/images/{{#var:PLATFORM_OS}} directory.
* You should always properly unmount your SD card before physically removing it.
}}


Install the kernel image and modules:
{{#switch: {{#var:SOC_SERIES}}
$ cp arch/arm/boot/{{#var:KERNEL_IMAGE}} /media/{{#var:EMMC_FAT_PARTITION_NAME}}
|imx8
$ sudo make ARCH=arm modules_install INSTALL_MOD_PATH=/media/rootfs
|imx9=
= Install the built kernel images, modules, and device trees using SSH on a running target =
 
The example below uses ssh to install the kernel on a running device.


Install the device trees:
First, export a variable with the ip address of your target device:
  $ cp arch/arm/boot/dts/*var*.dtb /media/{{#var:EMMC_FAT_PARTITION_NAME}}
  $ export TARGET_IP=192.168.0.205


Note:<br>
Then, copy the kernel image and device trees to the temporary directory, send them to the target using ssh, and install them with the correct user permissions:
If you are using our {{Varlink2|Yocto Recovery SD card|{{#var:RELEASE_LINK}}}}, and you want the NAND flash/eMMC installation to update as well as the SD card boot itself, you need to also update the /opt/images/Yocto directory.
$ mkdir -p {{#var:KERNEL_ROOTFS}}/boot && \
  cp ${WORKDIR}/{{#var:KERNEL_REPO_NAME}}/arch/arm64/boot/dts/freescale/*imx*var*.dtb {{#var:KERNEL_ROOTFS}}/boot && \
  cp ${WORKDIR}/{{#var:KERNEL_REPO_NAME}}/arch/arm64/boot/{{#var:KERNEL_IMAGE}} {{#var:KERNEL_ROOTFS}}/boot/ && \
  ssh root@${TARGET_IP} 'mkdir /tmp/rootfs' && \
  tar czf - -C {{#var:KERNEL_ROOTFS}} . {{!}} ssh root@${TARGET_IP} 'tar xzf - -C /tmp/rootfs && \
  chown -R root:root /tmp/rootfs && cp -a /tmp/rootfs/boot/* /boot/ && cp -a /tmp/rootfs/lib/* /lib/ && \
  rm -r /tmp/rootfs'
}}

Latest revision as of 19:15, 20 November 2024

Warning: This page is designed to be used with a 'release' URL parameter.

This page is using the default release RELEASE_MORTY_V1.0_DART-6UL.
To view this page for a specific Variscite SoM and software release, please follow these steps:

  1. Visit variwiki.com
  2. Select your SoM
  3. Select the software release
Build Linux from source code
It is recommended to build the kernel image using Yocto (see the Customizing the Linux kernel page) instead of using the direct method described in this page.
This is because some of the Yocto packages may depend on the kernel, like the WiFi module that is built from outside of the kernel source tree on some of the Yocto releases.

Toolchain installation for out of Yocto builds

To install the toolchain, follow the Yocto Toolchain installation guide.

Setup the environment:

Setup a working directory

$ export WORKDIR=~/imx6ul-var-dart-linux
$ mkdir ${WORKDIR}

Build Linux out of Yocto tree

Fetch linux-2.6-imx source code:

$ cd $WORKDIR
$ git clone https://github.com/varigit/linux-2.6-imx.git -b imx-rel_imx_4.1.15_2.0.0_ga-var02 linux-2.6-imx
$ cd linux-2.6-imx && \
  git checkout imx-rel_imx_4.1.15_2.0.0_ga-var02 && \
  cd ../

Build Kernel, Modules, and DTBs:

Setup the environment:

$ source /opt/fslc-x11/2.2.1/environment-setup-armv7at2hf-neon-fslc-linux-gnueabi

Clean and prepare the kernel:

$ cd ${WORKDIR}/linux-2.6-imx
$ make mrproper
$ make imx6ul-var-dart_defconfig
Customize the kernel configuration (optional step):
$ make menuconfig

Build kernel parts:

Build everything:
$ make -j$(nproc)

Build zImage only:
$ make -j$(nproc)  zImage

Build modules only:
$ make -j$(nproc)  modules

Build device trees only:
$ make -j$(nproc) dtbs
Build only the device tree for DART-6UL with i.MX6UL SOC, eMMC and WiFi:
$ make -j4 imx6ul-var-dart-emmc_wifi.dtb

Build only the device tree for DART-6UL with i.MX6UL SOC, eMMC and SD card:
$ make -j4 imx6ul-var-dart-sd_emmc.dtb

Build only the device tree for DART-6UL with i.MX6UL SOC, NAND flash and WiFi:
$ make -j4 imx6ul-var-dart-nand_wifi.dtb

Build only the device tree for DART-6UL with i.MX6UL SOC, NAND flash and SD card:
$ make -j4 imx6ul-var-dart-sd_nand.dtb

Build only the device tree for DART-6UL with i.MX6ULL SOC, eMMC and WiFi:
$ make -j4 imx6ull-var-dart-emmc_wifi.dtb

Build only the device tree for DART-6UL with i.MX6ULL SOC, eMMC and SD card:
$ make -j4 imx6ull-var-dart-sd_emmc.dtb

Build only the device tree for DART-6UL with i.MX6ULL SOC, NAND flash and WiFi:
$ make -j4 imx6ull-var-dart-nand_wifi.dtb

Build only the device tree for DART-6UL with i.MX6ULL SOC, NAND flash and SD card:
$ make -j4 imx6ull-var-dart-sd_nand.dtb


Install kernel modules to temporary directory

Create a temporary directory to install the modules:

Optional: delete any old installation from previous builds:
$ rm -rf $WORKDIR/rootfs

Create new directory:
$ mkdir -p $WORKDIR/rootfs

Install the modules to the temporary rootfs:

$ cd ${WORKDIR}/linux-2.6-imx && \
  make ARCH=arm \
    INSTALL_MOD_STRIP=1 \
    INSTALL_MOD_PATH=$WORKDIR/rootfs \
    modules_install


Notes:

If you replace the kernel image (zImage) on your system, you also need to reinstall the kernel modules, and vice versa.
If you just want to make a change in the device tree, you can compile and replace it without replacing the kernel image and modules.

Install the built kernel images, modules, and device trees on an SD card

Copy the zImage and device trees to the SD card boot partition, and install the modules in the SD card rootfs partition.
Assuming the boot partition is mounted on /media/user/BOOT-VAR6UL and the rootfs partition is mounted on /media/user/rootfs:

Install the kernel image and modules:
$ cd ${WORKDIR}/linux-2.6-imx
$ cp arch/arm/boot/zImage /media/user/BOOT-VAR6UL
$ sudo cp $WORKDIR/rootfs/* /media/user/rootfs

Install the device trees:
$ sudo cp arch/arm/boot/dts/imx6ul*var*.dtb /media/user/BOOT-VAR6UL

Notes:

  • If you are using our Yocto Recovery SD card, and you want the NAND flash/eMMC installation process to be updated as well as the SD card boot itself, you need to also update the /opt/images/Yocto directory.
  • You should always properly unmount your SD card before physically removing it.