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Difference between revisions of "Funtoo on the Nvidia TK1"
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{{Tip|Once you get a stage 3 booted, you can just flash the kernel and transfer the modules via rsync over ssh. It's not unreasonable. | |||
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Revision as of 16:55, February 27, 2017
Introduction
Read this.
And this
And this.
And this
Getting the Sources
Use the tools issued by Nvidia to handle kernel sources via git. Checkout the desired kernel version, which probably should match the version of the driver package (RXX-X), update the environment variables and create a branch named by the kernel version.
root # wget http://developer.nvidia.com/embedded/dlc/l4t-Jetson-TK1-Driver-Package-R21-5 -O $TOOLS/l4t-Jetson-TK1-Driver-Package-R21-5 root # cd $TOOLS root # tar jxf l4t-Jetson-TK1-Driver-Package-R21-5 root # rm l4t-Jetson-TK1-Driver-Package-R21-5 root # cd Linux_for_Tegra root # ./source_sync.sh #skip tag selection both times root # cd sources/kernel_source root # git ls-remote root # git checkout tegra-l4t-r21.5 root # ln -s $PWD $XC_KERNEL_SRC root # . xcompile_variables.sh root # git checkout -b `get_kernel_version`
Kernel Building
You need a working kernel config. You can get one from a running TK1 and get it into your $XC_KERNEL_SRC directory.
root # zcat /proc/config.gz > my_TK1_config root # scp my_TK1_config <xc_user>@<xc_host>:~ root # cp ~/my_TK1_config $CONFIGS/`get_kernel_version`.kconf
Or you can get it from the kernel headers.
root # cd $TOOLS/Linux_for_Tegra/kernel root # tar xvf kernel_headers.tbz2 root # cp linux-headers-<kernel_version>/.config $CONFIGS/`get_kernel_version`.kconf
Make the Kernel
root # . xcompile_variables.sh root # cd $XC_KERNEL_SRC root # cp $XC_KERNEL_OLDCONFIG .config root # ARCH=$ARCH CROSS_COMPILE=$CROSSDEV_TARGET- make oldconfig root # ARCH=$ARCH CROSS_COMPILE=$CROSSDEV_TARGET- make zImage modules dtbs
Download and Configure Stage3
See http://www.funtoo.org/Crossdev_Automation#Stage3_Configuration
Don't configure fstab and leave a serial console configured on ttyS2 in $XC_STAGES/etc/inittab.
root # echo "# UNCONFIGURED FSTAB FOR BASE SYSTEM" > $XC_STAGE3S/fstab
Install Super Special Blobs
Make a link to our stage 3 and copy over nvidia binaries to it.
root # cd $TOOLS/Linux_for_Tegra root # rmdir rootfs root # ln -s $XC_STAGE3S rootfs root # ./apply_binaries.sh
Copy over Everything
root # cd $XC_KERNEL_SRC root # ARCH=$ARCH CROSS_COMPILE=$CROSSDEV_TARGET- INSTALL_MOD_PATH=$XC_STAGE3S INSTALL_MOD_STRIP=1 make modules_install root # ARCH=$ARCH CROSS_COMPILE=$CROSSDEV_TARGET- INSTALL_MOD_PATH=$XC_STAGE3S make firmware_install root # rsync -avz $XC_FIRMWARE/ $XC_STAGE3S/lib/firmware root # rsync -avz arch/arm/boot/zImage $XC_STAGE3S/boot root # rsync -avz arch/arm/boot/dts/*.dtb $XC_STAGE3S/boot root # rm $XC_STAGE3S/lib/modules/`get_kernel_release`/{build,source}
Flash the TK1
Put your system into “reset recovery mode” by holding down the “RECOVERY” button and press “RESET” button once on the main board.
Ensure your Linux host system is connected to the target device through the USB cable for flashing.
root # lsusb | grep -i nvidia Bus 003 Device 002: ID 0955:7140 NVidia Corp.
Now flash the root file system. We only flash 8GiB of the 14580MiB available to save time.
root # ./flash.sh -S 8GiB -L bootloader/fastboot.bin jetson-tk1 mmcblk0p1 copying bctfile(/usr/src/fun_kernel/tools/TK1/Linux_for_Tegra/bootloader/ardbeg/BCT/PM375_Hynix_2GB_H5TC4G63AFR_H5TC4G63CFR_RDA_924MHz.cfg)... done. Existing bootloader(/usr/src/fun_kernel/tools/TK1/Linux_for_Tegra/bootloader/fastboot.bin) reused. making zero initrd... done. Making Boot image... done. Making system.img... populating rootfs from /usr/src/fun_kernel/stage3s/TK1/funtoo-current/arm-32bit/armv7a_neonvfpv4_hardfp ... done. Sync'ing system.img ... done. Converting RAW image to Sparse image... ---- Raw to Sparse Image Converter v1.0 ---------------------------- 0: RAW: 4214784( 1029 blks) ==> 28:4214796 1: SKP: 49152( 12 blks) ==> 4214824:49164 2: RAW: 8192( 2 blks) ==> 4214836:8204 ...<lots of output>... Create, format and download took 91 Secs Time taken for flashing 95 Secs *** The target ardbeg has been flashed successfully. *** Reset the board to boot from internal eMMC.
The board may or may not reboot at this point. Make sure it is back in recovery mode and attached to your cross compiling host as a usb device.
Flash the kernel to the partition id LNX. Cross your fingers.
root # cd $TOOLS/Linux_for_Tegra root #./flash.sh -k LNX -L bootloader/fastboot.bin -K $XC_KERNEL_SRC/arch/arm/boot/zImage jetson-tk1 mmcblk0p1 copying bctfile(/usr/src/fun_kernel/tools/TK1/Linux_for_Tegra/bootloader/ardbeg/BCT/PM375_Hynix_2GB_H5TC4G63AFR_H5TC4G63CFR_RDA_924MHz.cfg)... done. Existing bootloader(/usr/src/fun_kernel/tools/TK1/Linux_for_Tegra/bootloader/fastboot.bin) reused. making zero initrd... done. Making Boot image... done. Making system.img... populating rootfs from /mnt/Workspace/Jetson/21-5/Linux_for_Tegra/rootfs ... done. Sync'ing system.img ... done. Converting RAW image to Sparse image... ---- Raw to Sparse Image Converter v1.0 ---------------------------- 0: RAW: 4231168( 1033 blks) ==> 28:4231180 1: SKP: 40960( 10 blks) ==> 4231208:40972 2: RAW: 4096( 1 blks) ==> 4231220:4108 ...<lots o output>... Time taken for flashing 4 Secs *** The 6:LNX has been updated successfully. ***
Once you get a stage 3 booted, you can just flash the kernel and transfer the modules via rsync over ssh. It's not unreasonable.