VAR-SOM-AM33 Yocto FIDO GS: Difference between revisions
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== Boot from MMC/SD == | == Boot from MMC/SD == | ||
For creating a bootable SD , follow the below instructions on [[ | For creating a bootable SD , follow the below instructions on [[VAR-SOM-AM33 Yocto FIDO GS#Create a bootable SD-Card |Creating a bootable SD-Card ]] | ||
To boot the | To boot the bootable SD-Card, follow the steps below: | ||
*Power-off board | |||
*Insert the SD card into the SD-Card slot of the custom board | |||
*Press and hold the boot select switch while powering ON the board. Booting without pressing the boot-select button, CPU will boot from NAND-Flash. While currently our NAND is either empty, or has older revisions. | |||
*Login as root (no password) | |||
== Boot from NAND == | == Boot from NAND == |
Revision as of 11:22, 22 December 2015
About this Manual
This document describes how to install Variscite's Yocto release for the VAR-SOM-AM33.
The Yocto distribution provides a fundamental software platform for development, deployment and execution on VAR-SOM-AM33. It abstracts the functionality provided by the hardware.
In this context, the document contains instructions to:
- Install the release on a development machine.
- Build the sources included in this release.
- Instaling the binaries on the VAR-SOM-AM33.
- Booting the VAR-SOM-AM33.
Installation
Prerequisites
Before starting the installation, make sure below system requirements are met:
- Host machine running a Ubuntu 14.04 64 LTS.
- VAR-SOM-AM33 Evaluation Kit + VAR-SOM-AM33 Yocto support installation sources and binaries (from FTP). Please refer to support@variscite.com for obtaining FTP credentials.
The Linux host is used for the following:
- Recompiling U-Boot / kernel.
- Hosting the NFS server to boot the EVM with NFS as root filesystem.
Either of Windows or Linux host can be used for:
- Hosting the TFTP server required for downloading the kernel and file-system images from U-Boot using Ethernet.
- Running a serial console terminal application
Building the Yocto distribution via Bitbake will produce a complete set of downloaded source code + binaries for each component:
- Yocto build environment
- Downloaded Linux kernel source code + build kernel binaries (DTB and zImage) for VAR-SOM-AM33.
- Downloaded U-Boot source code + build U-boot binaries (MLO and U-boot) for VAR-SOM-AM33.
- Linux root file-system.
Install the Arago toolchain
$ wget --no-check-certificate http://releases.linaro.org/15.05/components/toolchain/binaries/arm-linux-gnueabihf/gcc-linaro-4.9-2015.05-x86_64_arm-linux-gnueabihf.tar.xz $ sudo tar -xvf gcc-linaro-4.9-2015.05-x86_64_arm-linux-gnueabihf.tar.xz -C /opt
Install development tools
$ sudo apt-get install git build-essential diffstat texinfo gawk chrpath gcc-multilib wget socat libsdl1.2-dev mtd-utils dos2unix
Download TI's Yocto Fido Distribution
$ mkdir ~/yocto_varsomam33 $ cd ~/yocto_varsomam33 $ git clone git://arago-project.org/git/projects/oe-layersetup.git tisdk
Downloading VAR-SOM-AM33 Support
Download the VAR-SOM-AM33 Yocto support installation from github:
$ mkdir ~/yocto_varsomam33/tisdk/sources $ cd ~/yocto_varsomam33/tisdk/sources $ git clone https://github.com/varigit/meta-variscite-amx3
Downloading the YOCTO Fido 1.8 configuration
Download the YOCTO Fido 1.8 sources as follows:
$ cd ~/yocto_varsomam33/tisdk $ ./oe-layertool-setup.sh -f sources/meta-variscite-amx3/conf/var-som-amx3_sdk-02.00.00-config.txt
local.conf customizations
Edit you local.conf file:
$ cd ~/yocto_varsomam33/tisdk/build $ gedit conf/local.conf
Change your parallel build and download directory:
Parallel build
Set the build parameters to fully utilize your host machine
BB_NUMBER_THREADS = '4'
PARALLEL_MAKE = '-j 6'
BB_NUMBER_THREADS should be your host machine's number of threads minus 2 or same.
PARALLEL_MAKE should be the number of threads your host machine has plus two.
Download directory
Recommended to save download time and space.
DL_DIR = "/home/<uname>/yocto_dl"
Building the VAR-SOM-AM33 Yocto image
First, change directory to the build directory of Yocto:
$ cd ~/yocto_varsomam33/tisdk/build
The developer can build the tisdk-rootfs-image image as follows:
$ export PATH=/opt/gcc-linaro-4.9-2015.05-x86_64_arm-linux-gnueabihf/bin:$PATH $ . conf/setenv $ MACHINE=varsomam33 bitbake tisdk-rootfs-image
After the image was built, all images will be located in: ~/yocto_varsomam33/tisdk/build/arago-tmp-external-linaro-toolchain/deploy/images/ - Specifically:
Build Results
The resulted images are locaated in tmp/deploy/images/var-som-mx6.
Image Name |
How to use |
---|---|
zImage | Kernel uncompressed image |
zImage-var-som-am33.dtb | The VAR-SOM-AM33 kernel device tree |
uImage | Linux kernel image, same binary for SD-Card or NAND Flash |
MLO | The MLO is pre-u-boot SW component, required for DDR initialization |
u-boot.img | U-Boot bootloader |
tisdk-rootfs-image-varsomam33.tar.gz | Compressed rootfs tarball |
If the rootfs directory already exists - Please make sure to erase all its content before extracting a new rootfs image into it:
$ sudo rm -rf ~/yocto_varsomam33/rootfs/*
Extract the rootfs as follows:
$ sudo mkdir ~/yocto_varsomam33/rootfs $ sudo tar xvf ./arago-tmp-external-linaro-toolchain/deploy/images/varsomam33/tisdk-rootfs-image-varsomam33.tar.gz -C ~/yocto_varsomam33/rootfs
This creates a rootfs directory for the Yocto / VAR-SOM-AM33 build.
Create a bootable SD-Card
The below procedure will result in a bootable SD-Card:
- SD-Card will be partitioned into 2 partitions:
- FAT32 Boot partition: includes MLO and U-boot required for initial boot
- ext3 file system: includes zImage, kernel device tree and a complete rootfs
- All NAND flash binaries will be copied to rootfs under /opt/TISDK directory, for NAND Flash burning if required.
Please follow the below steps:
- Insert a 4GB+ SD-Card to host computer
- Run dmesg command to identify which /dev/sdX was created
- To generate the SD-Card - Run script (and choose the correct /dev/sdX of the 4GB SD-Card inserted):
$ cd ~/yocto_varsomam33/tisdk/sources/meta-variscite-amx3/utils $ sudo ./create-sdcard.sh ~/yocto_varsomam33/tisdk ~/yocto_varsomam33/rootfs/
To boot the bootable SD-Card, follow the steps below:
- Power-off board
- Insert the SD card into the SD-Card slot of the custom board
- Press and hold the boot select switch while powering ON the board. Booting without pressing the boot-select button, CPU will boot from NAND-Flash. While currently our NAND is either empty, or has older revisions.
- Login as root (no password)
Boot
The Kernel and root the file-system can be booted either from NAND, SD-Card.
Following sections describe various kernel boot options possible.
Boot from MMC/SD
For creating a bootable SD , follow the below instructions on Creating a bootable SD-Card
To boot the bootable SD-Card, follow the steps below:
- Power-off board
- Insert the SD card into the SD-Card slot of the custom board
- Press and hold the boot select switch while powering ON the board. Booting without pressing the boot-select button, CPU will boot from NAND-Flash. While currently our NAND is either empty, or has older revisions.
- Login as root (no password)
Boot from NAND
By default the VAR-SOM-AM33 boots from NAND.
The SPL, U-Boot, kernel uImage and UBIFS filesystem are flashed on the NAND flash at production.
Flash binaries to NAND
Please refer to : NAND Flash Burning
NAND Recovery script
Variscite provides NAND-recovery.sh script, as a full example of flashing all required binaries to NAND-Flash.
An already made, prebuilt bootable SD-Card, can be downloaded and mounted on SD-Card from Variscite's FTP, please refer to :
VAR-SOM-AM33 Yocto NAND Recovery
Build U-Boot out of yocto tree
Please refer to : Build u-boot out of yocto tree
Building Linux kernel out-of-yocto tree
For manually building the Linux kernel, out of the yocto build system, please refer to :
Build linux kernel out of yocto tree
Replace bootable SD-Card's kernel
In order to install the newly created kernel to the SD-Card, please follow the instructions below:
1) Plug in the bootable SD-Card created above to a Linux host PC
2) Mount the second partition, which holds the system's file system as /media/rootfs.
3) Install by executing the following commands:
$ sudo cp arch/arm/boot/zImage /media/rootfs/boot $ sudo cp arch/arm/boot/dts/var-som-am33.dtb /media/rootfs/boot $ sudo make ARCH=arm CROSS_COMPILE=arm-linux-gnueabihf- modules_install INSTALL_MOD_PATH=/media/rootfs $ sync $ sudo umount /media/boot $ sudo umount /media/rootfs $ sudo umount /media/user
Out-of-tree Kernel Modules
Some drivers like the SGX and WLAN drivers are delivered as modules outside of the kernel tree. These drivers binaries are already included in the pre-built root file-systems provided by Variscite.
Support carrier boards without a Touch screen
In order to skip the Touch screen calibration on the first boot on carrier boards without a Touch screen -
Please insert the SD-Card to a Linux machine (or VM) after creating the SD-Card and type the following command to disable touch screen calibration at the first boot:
$ sudo touch /media/boot/ws-calibrate.rules