Difference between revisions of "Compiling Yantrr Vayu Drivers on Debian Wheezy"
(→Rebuild kernel) |
(→Rebuild kernel) |
||
Line 113: | Line 113: | ||
*Following figures illustrate how to enable the PPS drivers and also some settings in USB drivers section | *Following figures illustrate how to enable the PPS drivers and also some settings in USB drivers section | ||
:* First image shows the first screen of makemenuconfig while recompiling the kernel. Select Device drivers . | :* First image shows the first screen of makemenuconfig while recompiling the kernel. Select Device drivers . | ||
− | [[File:First Image for makemenuconfig. | + | [[File:First Image for makemenuconfig.png|center|border|300px | Select device drivers]] |
:* In the device drivers window, scroll down to select PPS support. | :* In the device drivers window, scroll down to select PPS support. | ||
− | [[File:Second Image for makemenuconfig. | + | [[File:Second Image for makemenuconfig.png|center|border|300px | Select PPS support]] |
:* In PPS support, select PPS client using GPIO as built-in driver. It should look like as illustrated in figure below : | :* In PPS support, select PPS client using GPIO as built-in driver. It should look like as illustrated in figure below : | ||
− | [[File:Third Image for makemenuconfig. | + | [[File:Third Image for makemenuconfig.png|center|border|300px | Select PPS client using GPIO]] |
:* Exit PPS Support and select USB support and ensure that EHCI HCD (USB2.0) support is enabled. Please match other options too from the figure illustrated below : | :* Exit PPS Support and select USB support and ensure that EHCI HCD (USB2.0) support is enabled. Please match other options too from the figure illustrated below : | ||
− | [[File:Fourth Image for makemenuconfig. | + | [[File:Fourth Image for makemenuconfig.png|center|border|300px | USB Support]] |
At the end of compilation , copy and paste the line with kernel_version, which is as follows | At the end of compilation , copy and paste the line with kernel_version, which is as follows |
Revision as of 12:09, 24 February 2014
Note : All steps are executed on a Ubuntu System and as a root user. We used Ubuntu 12.04 LTS. Most of the steps are exactly same as described in the BBB-RobertCNelson-Main Wiki.
Contents
Basic Requirements
- ARM Cross Compiler : Linaro: https://launchpad.net/linaro-toolchain-binaries
- Bootloader Das U-Boot : The Universal Boot Loader http://www.denx.de/wiki/U-Boot
- Linux Kernel
- Linus's Mainline tree: http://git.kernel.org/?p=linux/kernel/git/torvalds/linux.git;a=summary
- Linux omap tree: http://git.kernel.org/?p=linux/kernel/git/tmlind/linux-omap.git
- Arago Project TI Staging tree: http://arago-project.org/git/projects/?p=linux-am33x.git;a=shortlog;h=refs/heads/v3.2-staging
- ARM based rootfs
- Debian Squeeze: http://www.debian.org/
ARM cross compiler linaro gcc (~/)
Download and extract the ARM Cross compiler linaro gcc . Supposedly we mark that directory as root (~/)
wget -c https://launchpad.net/linaro-toolchain-binaries/trunk/2013.10/+download/gcc-linaro-arm-linux-gnueabihf-4.8-2013.10_linux.tar.xz tar xJf gcc-linaro-arm-linux-gnueabihf-4.8-2013.10_linux.tar.xz export CC='pwd'/gcc-linaro-arm-linux-gnueabihf-4.8-2013.10_linux/bin/arm-linux-gnueabihf-
Test the version of the gcc path set above to verify it will work
${CC}gcc –version arm-linux-gnueabihf-gcc (crosstool-NG linaro-1.13.1-4.8-2013.10 - Linaro GCC 2013.10) 4.8.2 20131014 (prerelease) Copyright (C) 2013 Free Software Foundation, Inc. This is free software; see the source for copying conditions. There is NO warranty; not even for MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.
if the above test fails, verify that you have 32bit libraries installed on your development system , and execute following :
apt-get install lbs apt-get install ia32-libs
Bootloader U-boot (~/)
Bootloader used is Das U-Boot, and its works like charm. Das U-Boot -- the Universal Boot Loader http://www.denx.de/wiki/U-Boot
Download:
~/ git clone git://git.denx.de/u-boot.git cd u-boot/ git checkout v2013.10 -b tmp
Patches: After cloning git takes you to the u-boot directory of the working directory, else go to the u-boot directory
~/u-boot wget https://raw.github.com/eewiki/u-boot-patches/master/v2013.10/0001-am335x_evm-uEnv.txt-bootz-n-fixes.patch patch -p1 < 0001-am335x_evm-uEnv.txt-bootz-n-fixes.patch
Configure and Build:
~/u-boot make ARCH=arm CROSS_COMPILE=${CC} distclean make ARCH=arm CROSS_COMPILE=${CC} am335x_evm_config make ARCH=arm CROSS_COMPILE=${CC}
Upgrade distro "device-tree-compiler" package
(~/) {In the working directory} wget -c https://raw.github.com/RobertCNelson/tools/master/pkgs/dtc.sh chmod +x dtc.sh ./dtc.sh
Linux kernel (~/)
We follow RobertCNelson branch of the kernel. For more details, please go to BBB-RobertCNelson-Main Wiki
Git setup and Kernel Compile
git clone git://github.com/RobertCNelson/linux-dev.git cd linux-dev/
checkout v3.8.xbranch (full cape support) There are other versions,check here BBB-RobertCNelson-Main Wiki
git checkout origin/am335x-v3.8 -b eewiki
Now setup the git and compile the kernel
apt-get update apt-get install device-tree-compiler lzma lzop u-boot-tools libncurses5-dev git config --global user.name "username" git config --global user.email "useremailid" ./build_kernel.sh
Add USB and PPS driver
While compiling for first time, LINUX_GIT is set by default(check its path in build_kernel.sh and /tools/rebuild.sh). Set it to 'pwd'/linux-dev/ignore/linux-src/ in build_kernel.sh and /tools/rebuild.sh, so use following for later use:
export LINUX_GIT='pwd'/linux-dev/ignore/linux-src/
Please download our USB drivers patch which is required to use the WCDMA modem on Cape.
wget wcdma_patch_vayu_usb_drivers.patch patch -p1 < wcdma_patch_vayu_usb_drivers.patch
Rebuild kernel
Now rebuild the kernel while enabling the pps drivers in makemenuconfig and after USB drivers patch applied.
./tools/rebuild.sh
- Following figures illustrate how to enable the PPS drivers and also some settings in USB drivers section
- First image shows the first screen of makemenuconfig while recompiling the kernel. Select Device drivers .
- In the device drivers window, scroll down to select PPS support.
- In PPS support, select PPS client using GPIO as built-in driver. It should look like as illustrated in figure below :
- Exit PPS Support and select USB support and ensure that EHCI HCD (USB2.0) support is enabled. Please match other options too from the figure illustrated below :
At the end of compilation , copy and paste the line with kernel_version, which is as follows
export kernel_version=3.X.Y-Z ( in our case 3.8.13-bone32)
- Root file system (~/)
- Download and extract the minimal root file system for debian wheezy :
wget -c https://rcn-ee.net//deb/minfs/wheezy/debian-7.3-minimal-armhf-2013-12-18.tar.xz md5sum debian-7.3-minimal-armhf-2013-12-18.tar.xz tar xf debian-7.3-minimal-armhf-2013-12-18.tar.xz
- Setup MicroSD card (as root)
- Attach a microSD card of size atleast 2GB to the desktop with the help of a card reader
- use lsblk to determine device id of sd card , it is either /dev/mmcblkx or /dev/sdx , so supposedly :
export DISK=/dev/mmcblk0 dd if=/dev/zero of=${DISK} bs=1M sfdisk --in-order --Linux --unit M ${DISK} <<-__EOF__ 1,48,0xE,* ,,,- __EOF__ dd if=/dev/zero of=${DISK} bs=512 count=1
- format partitions, for DISK=/dev/mmcblk0
mkfs.vfat -F 16 ${DISK}p1 -n boot mkfs.ext4 ${DISK}p2 -L rootfs
- or for DISK=/dev/sdX
mkfs.vfat -F 16 ${DISK}1 -n boot mkfs.ext4 ${DISK}2 -L rootfs
- mount paths may vary, sometimes they are auto mounted, otherwise do following
mkdir -p /media/boot/ mkdir -p /media/rootfs/ mount ${DISK}p1 /media/boot/ or mount ${DISK}1 /media/boot/ mount ${DISK}p2 /media/rootfs/ or mount ${DISK}2 /media/rootfs/
- install bootloader (~/)
cp -v ./u-boot/MLO /media/boo t/ cp -v ./u-boot/u-boot.img /media/boot/
- Create “uEnv.txt” boot script and copy following in it: (nano uEnv.txt)
- u-boot eMMC specific overrides; Angstrom Distribution (BeagleBone Black) 2013-06-20
kernel_file=zImage initrd_file=uInitrd
loadzimage=load mmc ${mmcdev}:${mmcpart} ${loadaddr} ${kernel_file} loadinitrd=load mmc ${mmcdev}:${mmcpart} 0x81000000 ${initrd_file}; setenv initrd_size ${filesize} loadfdt=load mmc ${mmcdev}:${mmcpart} ${fdtaddr} /dtbs/${fdtfile}
console=ttyO0,115200n8 mmcroot=/dev/mmcblk0p2 rw mmcrootfstype=ext4 rootwait fixrtc
- To disable HDMI/eMMC...
- optargs=capemgr.disable_partno=BB-BONELT-HDMI,BB-BONELT-HDMIN,BB-BONE-EMMC-2G
- 3.1MP Camera Cape
- optargs=capemgr.disable_partno=BB-BONE-EMMC-2G
mmcargs=setenv bootargs console=${console} root=${mmcroot} rootfstype=${mmcrootfstype} ${optargs}
- zImage:
uenvcmd=run loadzimage; run loadfdt; run mmcargs; bootz ${loadaddr} - ${fdtaddr}
- zImage + uInitrd: where uInitrd has to be generated on the running system.
- boot_fdt=run loadzimage; run loadinitrd; run loadfdt
- uenvcmd=run boot_fdt; run mmcargs; bootz ${loadaddr} 0x81000000:${initrd_size} ${fdtaddr}
cp -v ./uEnv.txt /media/boot/
- Install Kernel and root file system
- copy root file system (~/)
tar xfvp ./*-*-*-armhf-*/armhf-rootfs-*.tar -C /media/rootfs/
- copy kernel files
cp -v ./linux-dev/deploy/${kernel_version}.zImage /media/boot/zImage mkdir -p /media/boot/dtbs/ tar xfov ./linux-dev/deploy/${kernel_version}-dtbs.tar.gz -C /media/boot/dtbs/ tar xfv ./linux-dev/deploy/${kernel_version}-firmware.tar.gz -C /media/rootfs/lib/firmware tar xfv ./linux-dev/deploy/${kernel_version}-modules.tar.gz -C /media/rootfs/
- file systems table, edit /etc/fstab
nano /media/rootfs/etc/fstab
- and copy following
/dev/mmcblk0p2 / auto errors=remount-ro 0 1 /dev/mmcblk0p1 /boot/uboot auto defaults 0 2
- networking , edit /etc/network/interfaces
nano /media/rootfs/etc/network/interfaces
- and copy following
auto lo iface lo inet loopback auto eth0
- iface eth0 inet dhcp
iface eth0 inet static
address 192.168.1.150 netmask 255.255.255.0 network 192.168.1.0 gateway 192.168.1.1
- networking: using a shared sd card with multiple beaglebone
nano /media/rootfs/etc/udev/rules.d/70-persistent-net.rules
- and copy following
- BeagleBone: net device ()
SUBSYSTEM=="net", ACTION=="add", DRIVERS=="?*", ATTR{dev_id}=="0x0", ATTR{type}=="1", KERNEL=="eth*", NAME="eth0"
- for enabling serial login to system
nano /media/rootfs/etc/inittab
- and copy following at the end of inittab
T0:23:respawn:/sbin/getty -L ttyO0 115200 vt102
- Remove microsd card
sync umount /media/boot/ umount /media/rootfs/
- Extras
- usb gadget (http access to beaglebone black over usb)
- run beaglebone black with the created sd card and then do the following in it over eth0 ssh
apt-get install udhcpd
- and edit the file at /etc/default/udhcpd for enabling udhcpd
- and edit /etc/network/interfaces to add following at the end
- Ethernet/RNDIS gadget (g_ether)
- ... or on host side, usbnet and random hwaddr
iface usb0 inet static
address 192.168.7.2 netmask 255.255.255.0 network 192.168.7.0 gateway 192.168.7.1
- and use the following temp script
wget -c https://raw.github.com/RobertCNelson/tools/master/scripts/beaglebone-black-g-ether-load.sh chmod +x beaglebone-black-g-ether-load.sh sudo ./beaglebone-black-g-ether-load.sh
- to enable/disable HDMI or eMMC or LCD
- edit the uEnv.txt and comment/uncomment the line corresponding to this appropriately
- to boot from eMMC
- we have to boot with an init filesystem so edit the uEnv.txt and comment out zImage commands and uncomment zImage+uInitrd boot commands.
- then use scripts to copy microSD to eMMC
wget -c https://raw.github.com/RobetCNelson/tools/master/scripts/beaglebone-black-copy-microSD-to-eMMC.sh chmod +x beaglebone-black-copy-microSD-to-eMMC.sh sudo ./beaglebone-black-copy-microSD-to-eMMC.sh
- script to just update the boot partition of the eMMC
wget -c https://raw.github.com/RobertCNelson/tools/master/scripts/beaglebone-black-just-copy-boot-to-eMMC.sh chmod +x beaglebone-black-just-copy-boot-to-eMMC.sh sudo ./beaglebone-black-just-copy-boot-to-eMMC.sh
- other scripts are also there, they can be found here :
https://raw.github.com/RobertCNelson/tools/master/scripts/
- Note : These steps are publicly available here : http://eewiki.net/display/linuxonarm/BeagleBone+Black
Please check the above link for any updates.