$ sudo apt-get install libssl1.0-devor, depending on your host distribution:
$ sudo apt-get install libssl-devYou can install missing packages using
yum install
with Fedora or apt-get install
with Ubuntu or Debian. These commands may require root privileges or being in a correct sudoers group.
Check if additional package are needed in this FAQ entry.
$ git clone https://github.com/linux4microchip/buildroot-mchp.git Cloning into 'buildroot-mchp'... remote: Enumerating objects: 478163, done. remote: Counting objects: 100% (19/19), done. remote: Compressing objects: 100% (15/15), done. remote: Total 478163 (delta 7), reused 11 (delta 4), pack-reused 478144 Receiving objects: 100% (478163/478163), 105.79 MiB | 3.39 MiB/s, done. Resolving deltas: 100% (320697/320697), done. $ ls buildroot-mchp/ arch board boot CHANGES Config.in Config.in.legacy configs COPYING DEVELOPERS docs fs linux Makefile Makefile.legacy package README support system toolchain utils $ git clone https://github.com/linux4microchip/buildroot-external-microchip.git Cloning into 'buildroot-external-microchip'... remote: Counting objects: 571, done. remote: Compressing objects: 100% (159/159), done. remote: Total 571 (delta 217), reused 288 (delta 170), pack-reused 225 Receiving objects: 100% (571/571), 94.41 KiB | 76.00 KiB/s, done. Resolving deltas: 100% (332/332), done. $ ls buildroot-external-microchip/ board Config.in configs COPYING docs external.desc external.mk package patches README.md systemThe source code has been taken from the
master
branch which is pointing to the latest version of buildroot-mchp and buildroot-external-microchip. We advise you to use linux4sam tags to be sure that there is no mismatch between the versions of these two repositories.
You can list them and use one of them by doing this:
: Buildroot external microchip tree (buildroot-at91 too being migrated) is now part of linux4microchip, hence the tags on this repo are linux4microchip-*** named.
$ cd buildroot-external-microchip/ $ git tag | grep linux4microchip linux4microchip-2023.10 linux4microchip-2023.10-rc1 linux4microchip-2023.10-rc2 linux4microchip-2023.10-rc3 linux4microchip-2023.10-rc4 linux4microchip-2024.04 linux4microchip-2024.04-rc1 linux4microchip-2024.04-rc2 linux4microchip-2024.10 linux4microchip-2024.10-rc1 linux4microchip-2024.10-rc2 linux4microchip-2024.10-rc3 $ git checkout linux4microchip-2024.10 -b buildroot-external-microchip-linux4microchip-2024.10 $ cd ../buildroot-mchp/ $ git tag | grep linux4microchip linux4microchip-2023.04 linux4microchip-2023.04-rc1 linux4microchip-2023.04-rc2 linux4microchip-2023.10 linux4microchip-2023.10-rc1 linux4microchip-2024.04 linux4microchip-2024.04-rc1 linux4microchip-2024.04-rc2 linux4microchip-2024.10 linux4microchip-2024.10-rc1 linux4microchip-2024.10-rc2 linux4microchip-2024.10-rc3 $ git checkout linux4microchip-2024.10 -b buildroot-at91-linux4microchip-2024.10
configs
folder containing several default configurations. If you are familiar with kernel configuration, you'll see that it works in the same way.
For the same board, several defconfig files are provided inside the buildroot-mchp. These defconfigs are from upstream and, as said above, without the richness of a full linux4sam release. They can be used for a minimal test image. atmel_[soc]_xplained_defconfig
provides at91bootstrap, u-boot, the kernel image and dtb files, a very basic rootfs for NAND flash memory.
atmel_[soc]_xplained_mmc_defconfig
provides the same stuff but for SD card. Moreover a SD card image is done to ease the creation of the bootable SD card.
atmel_[soc]_xplained_dev_defconfig
and atmel_[soc]_xplained_mmc_dev_defconfig
provide a rootfs with additional tools to use SoC devices (I2C, CAN, audio, etc.).
configs
folder: [soc]_[board]_headless_defconfig
provides barely the same stuff as atmel_[soc]_xplained_mmc_dev_defconfig
plus AWS greengrass or other command-line tools, but with no graphics related packages.
[soc]_[board]_graphics_defconfig
provides the same stuff plus a full graphics (EGT) demo.
$ make atmel_sama5d2_xplained_mmc_defconfigBR2_EXTERNAL is not mandatory if you don't plan to use the content of the external tree If you want to build the linux4sam demo rootfs image we provide for sama5d2-xplained, you'll have to do:
$ BR2_EXTERNAL=../buildroot-external-microchip/ make sama5d2_xplained_graphics_defconfigThen you can build the rootfs:
$ BR2_EXTERNAL=../buildroot-external-microchip/ makeOnce compilation is done, have a look to
output/images
to see what has been generated:
$ ls output/images/ at91bootstrap.bin rootfs.ext2 sama5d2_xplained_isc.dtbo sama5d2_xplained_pda4.dtbo sama5d2_xplained_qspi.dtbo zImage at91-sama5d2_xplained.dtb rootfs.ext4 sama5d2_xplained.itb sama5d2_xplained_pda5.dtbo sama5d2_xplained-sdcardboot-uboot-3.9.0.bin boot.bin rootfs.tar sama5d2_xplained_ov7670.dtbo sama5d2_xplained_pda7b.dtbo sdcard.img boot.vfat sama5d2_xplained_i2s0_proto.dtbo sama5d2_xplained_ov7740.dtbo sama5d2_xplained_pda7.dtbo u-boot.binYou can have a look at the Create a SD card with the demo page to create an SD card from the
sdcard.img
file. If you want to flash NAND or whatever memory you want with Sam-Ba, please go to the Using SAM-BA to flash components to board
section of your board.
output/host/usr
:
$ ls output/host/usr/bin 2to3 arm-linux-gcc-ranlib fdtoverlay libpng-config python3.7m-config 2to3-3.7 arm-linux-gcov fdtput libtool python3-config aclocal arm-linux-gcov-dump fincore libtoolize python-config aclocal-1.15 arm-linux-gcov-tool findmnt linux32 python-freeze-importlib arm-buildroot-linux-gnueabihf-addr2line arm-linux-gdb fixqt4headers.pl linux64 pyvenv arm-buildroot-linux-gnueabihf-ar arm-linux-gprof flex linux-dtc qdbuscpp2xml arm-buildroot-linux-gnueabihf-as arm-linux-ld flex++ logger qdbusxml2cpp arm-buildroot-linux-gnueabihf-c++ arm-linux-ld.bfd flock look qlalr arm-buildroot-linux-gnueabihf-c++.br_real arm-linux-nm gapplication lrelease qmake arm-buildroot-linux-gnueabihf-cc arm-linux-objcopy gawk lsattr qmlcachegen arm-buildroot-linux-gnueabihf-cc.br_real arm-linux-objdump gdbus lsblk qmlimportscanner arm-buildroot-linux-gnueabihf-c++filt arm-linux-ranlib gdbus-codegen lscpu qmllint arm-buildroot-linux-gnueabihf-cpp arm-linux-readelf gdk-pixbuf-csource lsipc qmlmin arm-buildroot-linux-gnueabihf-cpp.br_real arm-linux-size gdk-pixbuf-pixdata lslocks qt.conf arm-buildroot-linux-gnueabihf-elfedit arm-linux-strings gdk-pixbuf-query-loaders lsmem qvkgen arm-buildroot-linux-gnueabihf-g++ arm-linux-strip gdk-pixbuf-thumbnailer lsns rake arm-buildroot-linux-gnueabihf-g++.br_real attr gem lupdate rcc arm-buildroot-linux-gnueabihf-gcc autoconf genbrk lzip rdjpgcom arm-buildroot-linux-gnueabihf-gcc-7.4.0 autoheader gencfu m4 rdoc arm-buildroot-linux-gnueabihf-gcc-7.4.0.br_real autom4te gencnval makeconv rename arm-buildroot-linux-gnueabihf-gcc-ar automake gendict makedevs renice arm-buildroot-linux-gnueabihf-gcc.br_real automake-1.15 genimage mcookie reset arm-buildroot-linux-gnueabihf-gcc-nm autopoint genrb meson rev arm-buildroot-linux-gnueabihf-gcc-ranlib autoreconf getfacl mk_cmds ri arm-buildroot-linux-gnueabihf-gcov autoscan getfattr mkenvimage ruby arm-buildroot-linux-gnueabihf-gcov-dump autoupdate getopt mkimage script arm-buildroot-linux-gnueabihf-gcov-tool bison gettextize mkpasswd scriptreplay arm-buildroot-linux-gnueabihf-gdb cal gio moc setarch arm-buildroot-linux-gnueabihf-gprof captoinfo gio-querymodules mount setfacl arm-buildroot-linux-gnueabihf-ld chacl glib-compile-resources mountpoint setfattr arm-buildroot-linux-gnueabihf-ld.bfd chattr glib-compile-schemas msgfmt setsid arm-buildroot-linux-gnueabihf-nm choom glib-genmarshal msgmerge sip arm-buildroot-linux-gnueabihf-objcopy cjpeg glib-gettextize namei smtpd.py arm-buildroot-linux-gnueabihf-objdump clear glib-mkenums ncurses6-config smtpd.py.7 arm-buildroot-linux-gnueabihf-ranlib cmake gobject-query ninja swig arm-buildroot-linux-gnueabihf-readelf col gperf node swig3.0 arm-buildroot-linux-gnueabihf-run colcrt gresource npm syncqt.pl arm-buildroot-linux-gnueabihf-size colrm gsettings npx tabs arm-buildroot-linux-gnueabihf-strings column gtester openssl tic arm-buildroot-linux-gnueabihf-strip compile_et gtester-report patchelf toe arm-linux-addr2line convert-dtsv0 hexdump pcre-config toolchain-wrapper arm-linux-ar cpack i386 pcregrep torque arm-linux-as c_rehash icu-config pcretest tput arm-linux-c++ ctest icuinfo pkgconf tset arm-linux-c++.br_real djpeg ifnames pkg-config uic arm-linux-cc dmesg infocmp pkgdata umount arm-linux-cc.br_real dtc infotocap prlimit uname26 arm-linux-c++filt dtdiff ipcmk pydoc utmpdump arm-linux-cpp dumpimage ipcrm pydoc3 uuidgen arm-linux-cpp.br_real easy_install ipcs pydoc3.7 uuidparse arm-linux-elfedit easy_install-2.7 irb python whereis arm-linux-g++ easy_install-3.7 isosize python2 wrjpgcom arm-linux-g++.br_real eject jpegtran python2.7 x86_64 arm-linux-gcc erb kill python2.7-config xgettext arm-linux-gcc-7.4.0 faked kmod python2-config xmlwf arm-linux-gcc-7.4.0.br_real fakeroot last python3 yacc arm-linux-gcc-ar fallocate lastb python3.7 arm-linux-gcc.br_real fdtdump lconvert python3.7-config arm-linux-gcc-nm fdtget libpng16-config python3.7mIf you do a
make clean
, you will delete the rootfs but also the cross toolchain. You can save the cross toolchain in another place. Moreover you can tell Buildroot to use it to save time for next compilations. To do it run make menuconfig
then go to the Toolchain
menu. Then select External toolchain as Toolchain type
, Custom toolchain as Toolchain
, Pre-installed toolchain as Toolchain origin
. Finally set Toolchain path
and Toolchain prefix
.
BR2_EXTERNAL=../buildroot-external-microchip/ make menuconfigand to go to the
Package Selection for the target
menu. Packages are sorted by categories:
You simply have to go in the desired category and to select or deselect the packages you want. Once done, you can build your rootfs.
If you have already done a build and you want to remove packages, you may have to do make clean
and to rebuild the whole rootfs to be sure that the packages will be removed.
make menuconfig
and go to Filesystem images
:
For a jffs2 root filesystem, you may have to update the page and erase size from Flash Type
.
For a ubifs root filesystem, you may have to update the UBI logical erase block size
, the UBI minimum I/O size
, the Maximum LEB count
, the UBI physical erase block size
and the UBI sub-page size
. You can find more information about these parameters in the ubi documentation.
$ git clone https://github.com/linux4sam/buildroot-at91.git -b 2024.02-mchp Cloning into 'buildroot-at91'... remote: Enumerating objects: 463728, done. remote: Counting objects: 100% (83926/83926), done. remote: Compressing objects: 100% (30247/30247), done. remote: Total 463728 (delta 53436), reused 83881 (delta 53426), pack-reused 379802 Receiving objects: 100% (463728/463728), 102.44 MiB | 10.50 MiB/s, done. Resolving deltas: 100% (313672/313672), done. $ ls buildroot-at91/ arch board boot CHANGES Config.in Config.in.legacy configs COPYING DEVELOPERS docs fs linux Makefile Makefile.legacy package README support system toolchain utils $ git clone https://github.com/linux4sam/buildroot-external-microchip.git Cloning into 'buildroot-external-microchip'... remote: Enumerating objects: 7753, done. remote: Counting objects: 100% (7753/7753), done. remote: Compressing objects: 100% (1634/1634), done. remote: Total 7753 (delta 5882), reused 7715 (delta 5844), pack-reused 0 Receiving objects: 100% (7753/7753), 1.07 MiB | 5.91 MiB/s, done. Resolving deltas: 100% (5882/5882), done. $ cd buildroot-external-microchip/ $ git checkout -b sama7d65 linux4microchip+sama7d65-2024.10 Switched to a new branch 'sama7d65' $ cd .. $ ls buildroot-external-microchip/ board Config.in configs COPYING README.md system docs external.desc external.mk package patches $ ls -1 buildroot-external-microchip/configs/sama7d65* configs/sama7d65_curiosity_graphics_defconfig configs/sama7d65_curiosity_headless_defconfig
$ cd buildroot-at91 $ BR2_EXTERNAL=../buildroot-external-microchip/ make sama7d65_curiosity_graphics_defconfig $ makeOnce compilation is done, have a look to output/images directory to see what has been generated:
$ ls -1 output/images/ at91bootstrap.bin at91-sama7d65_curiosity.dtb boot.bin boot-plaintextimg.bin boot.vfat rootfs.ext2 rootfs.ext4 rootfs.tar sama7d65_curiosity_at25ff321a_click1.dtbo sama7d65_curiosity.itb sama7d65_curiosity.its sama7d65_curiosity_lvds.dtbo sama7d65_curiosity_mipi.dtbo sama7d65_curiosity_pwm.dtbo sama7d65_curiosity_tcb_pwm.dtbo sama7d65-sdcardboot-uboot-4.0.7.bin sama7d65-sdcardboot-uboot-4.0.7-sama7d65-ea.bin sama7d65-sdcardboot-uboot-4.0.7-sama7d65-ea-plaintextimg.bin sdcard.img u-boot.bin uboot-env.bin zImageAll software components are there: booloaders, kernel, device tree and rootfs. The SD Card image ready to be flashed: sdcard.img : If you do a
make clean
, you will delete the rootfs but also the cross toolchain, redoing the whole process again will take time.
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