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==Qt on the PandaBoard==
 
[[Category:Devices]]
 
== Qt on the PandaBoard ==


It should be possible to run Qt 5.1 (along with Qt Quick 2) on the Panda using Linux or Android. These instructions only cover running Qt in a single-window, fullscreen fashion without X11.
It should be possible to run Qt 5.1 (along with Qt Quick 2) on the Panda using Linux or Android. These instructions only cover running Qt in a single-window, fullscreen fashion without X11.


===Linux===
=== Linux ===
 
Let's use Linux… and by Linux, I really mean Ubuntu.
 
==== Acquire an image ====


Let’s use Linux… and by Linux, I really mean Ubuntu.
There are many ways to build or get an Ubuntu disk image - you can install Ubuntu server, for example. Or, you might download a pre-built image from Linaro (or write one with linaro-media-create). For this wiki, we will use Ubuntu Core and walk you through the process. For more details and other fun PandaBoard stuff, please visit [http://www.omappedia.com/wiki/OMAP_Ubuntu_Core omapedia], from which much of this information was borrowed.


====Acquire an image====
Get qemu-utils:
<code>apt-get install qemu-utils</code>


There are many ways to build or get an Ubuntu disk image – you can install Ubuntu server, for example. Or, you might download a pre-built image from Linaro (or write one with linaro-media-create). For this wiki, we will use Ubuntu Core and walk you through the process. For more details and other fun PandaBoard stuff, please visit [http://www.omappedia.com/wiki/OMAP_Ubuntu_Core omapedia] ''[omappedia.com]'', from which much of this information was borrowed.
And create an image
<code>qemu-image create disk.img 1G</code> ''1G means 1 gigabyte. Feel free to choose a different size!''


Get qemu-utils:<br />
Let's create a few partitions. We need a small partition (32mb in the example) for the bootloader, and the rest of the card can be ext4:
<code>
# Partition the image
printf ",32,C,*,,L\n\n\n" | sfdisk -uM -D disk.img
# Format boot partition
sudo losetup /dev/loop0 disk.img -o 32256 —sizelimit 41094144
sudo mkfs.vfat -F 32 -n "bootfs" /dev/loop0
sudo losetup -d /dev/loop0
# Format root partition
sudo losetup /dev/loop0 disk.img -o 41126400
sudo mkfs.ext4 -L "rootfs" /dev/loop0
sudo losetup -d /dev/loop0
</code>


And create an image<br />
And now it's time to put some files on our image. Let's start with the Ubuntu core rootfs, available from [http://cdimage.ubuntu.com/ubuntu-core/releases/ here].
<code>
# Mount the rootfs
mkdir rootfs
sudo mount -o loop,offset=41126400 disk.img rootfs
# Download & unpack Ubuntu Core
wget http://cdimage.ubuntu.com/ubuntu-core/releases/12.04.2/release/ubuntu-core-12.04.2-core-armhf.tar.gz
sudo tar —numeric-owner -xf ubuntu-core-12.04.2-core-armhf.tar.gz -C rootfs/
</code>


Let’s create a few partitions. We need a small partition (32mb in the example) for the bootloader, and the rest of the card can be ext4:<br />
Now's a good time to tweak the file system. Let's start by installing the packages that we need in order to compile Qt.
<code>
# Get qemu-user-static so that we can chroot in
sudo apt-get install qemu-user-static
sudo cp /usr/bin/qemu-arm-static rootfs/usr/bin/
# Chroot in
sudo chroot rootfs
# Add the TI PPA to apt sources
printf "deb http://ppa.launchpad.net/tiomap-dev/release/ubuntu precise main\ndeb-src http://ppa.launchpad.net/tiomap-dev/release/ubuntu
precise main" > /etc/apt/sources.list.d/ti.list
apt-key adv —recv-keys —keyserver keyserver.ubuntu.com B2E908737DB60AD5
# Also enable universe
sed -i 's/#  universe$/\1 universe/g' /etc/apt/sources.list
# Better mount a few things before we start installing…
mount /dev
mount /dev/pts
mount /proc
# And update & upgrade
apt-get update
apt-get upgrade -y
# Install packages which we require for Qt
apt-get install libegl1-sgx-omap4 libgles2-sgx-omap4 libegl1-sgx-omap4-dev libgles2-sgx-omap4-dev libdrm-dev libwayland-dev libgbm-dev libffi-dev
# …and anything else we might need, such as an SSH server
apt-get install netbase isc-dhcp-client openssh-server -y
# All done, clean up and get out
service udev stop
umount /proc
umount /dev/pts
umount /dev
exit
sudo rm rootfs/usr/bin/qemu-arm-static
</code>


And now it’s time to put some files on our image. Let’s start with the Ubuntu core rootfs, available from [http://cdimage.ubuntu.com/ubuntu-core/releases/ here] ''[cdimage.ubuntu.com]''.<br />
Here are a few other things which may be handy for development:
<code>
# Enable serial console
cat > ttyO2.conf <<EOF
start on stopped rc or RUNLEVEL=[2345]
stop on runlevel [!2345]


Now’s a good time to tweak the file system. Let’s start by installing the packages that we need in order to compile Qt.<br />
respawn
exec /sbin/getty -L –8 115200 ttyO2
EOF
sudo mv ttyO2.conf rootfs/etc/init/
sudo chmod +x rootfs/etc/init/ttyO2.conf


Here are a few other things which may be handy for development:<br />
# Allow root to login without a password
sudo sed -i 's/root:/root:/' rootfs/etc/shadow
</code>


When we are done with the rootfs, unmount it:<br />
When we are done with the rootfs, unmount it:
<code>sudo umount rootfs</code>


Now it’s time to deal with the boot partition. There are other bootloaders out there, but U-boot is popular and easy to get working.<br />


Ok, now you’ve got an image. As long as it’s been properly unmounted and you should be able to dd it to an SD card.
Now it's time to deal with the boot partition. There are other bootloaders out there, but U-boot is popular and easy to get working.
<code>
# Create a boot.script for U-boot
cat > boot.script <<EOF
setenv bootargs console=tty0 console=ttyO2,115200n8 root=/dev/mmcblk0p2 rw earlyprintk vram=48M omapfb.vram=0:24M,1:24M consoleblank=0
fatload mmc 0:1 0x80000000 uImage
bootm 0x80000000
EOF
# Compile the script for U-boot
mkimage -A arm -T script -C none -n "Boot Image" -d boot.script boot.scr
# Get the kernel and bootloader files from Ubuntu
wget http://ports.ubuntu.com/ubuntu-ports/dists/precise/main/installer-armhf/current/images/omap4/netboot/MLO
wget http://ports.ubuntu.com/ubuntu-ports/dists/precise/main/installer-armhf/current/images/omap4/netboot/u-boot.bin
wget http://ports.ubuntu.com/ubuntu-ports/dists/precise/main/installer-armhf/current/images/omap4/netboot/uImage
# Mount the boot partition
mkdir bootfs
sudo mount -o loop,offset=32256 disk.img bootfs
# And copy everything over
sudo cp MLO u-boot.bin uImage boot.scr bootfs/
# All done, unmount
sudo umount bootfs
</code>


====Build Qt====


Make sure you have your native and cross-compilers installed. Ubuntu provides one (so does Linaro):<br />
Ok, now you've got an image. As long as it's been properly unmounted and you should be able to dd it to an SD card.


You will want to mount that rootfs from the previous section to make life easier when building Qt. From above:<br />


Now configure (note the last 3 include arguments; these are required due to funky placement of the <span class="caps">GBM</span>/DRM headers in the TI repository):<br />
==== Build Qt ====
Make sure you have your native and cross-compilers installed. Ubuntu provides one (so does Linaro):
<code>sudo apt-get g-arm-linux-gnueabihf build-essential</code>


===Android===
You will want to mount that rootfs from the previous section to make life easier when building Qt. From above:
<code>
mkdir rootfs
sudo mount -o loop,offset=41126400 disk.img rootfs
</code>


More to come…
Now configure (note the last 3 include arguments; these are required due to funky placement of the GBM/DRM headers in the TI repository):
<code>
./configure -device linux-pandaboard-g++ -nomake tests -nomake examples -prefix /your_path_to_qt -sysroot /your_rootfs_path
-I/your_rootfs_path/usr/include -I/your_rootfs_path/usr/include/gbm -I/your_rootfs_path/usr/include/drm
</code>


===Categories:===
If all goes well, you should be able to run <code>make && make install</code> to finish building Qt. If an important feature is missing (like OpenGL ES 2), run configure with -v for potentially helpful error messages. It should be possible to build OpenGL ES 2 along with the EGLFS, minimal EGL, and KMS QPA plugins.


* [[:Category:Devices|Devices]]
=== Android ===

Latest revision as of 12:26, 13 April 2015


Qt on the PandaBoard

It should be possible to run Qt 5.1 (along with Qt Quick 2) on the Panda using Linux or Android. These instructions only cover running Qt in a single-window, fullscreen fashion without X11.

Linux

Let's use Linux… and by Linux, I really mean Ubuntu.

Acquire an image

There are many ways to build or get an Ubuntu disk image - you can install Ubuntu server, for example. Or, you might download a pre-built image from Linaro (or write one with linaro-media-create). For this wiki, we will use Ubuntu Core and walk you through the process. For more details and other fun PandaBoard stuff, please visit omapedia, from which much of this information was borrowed.

Get qemu-utils:

apt-get install qemu-utils

And create an image

qemu-image create disk.img 1G

1G means 1 gigabyte. Feel free to choose a different size!

Let's create a few partitions. We need a small partition (32mb in the example) for the bootloader, and the rest of the card can be ext4:

# Partition the image
printf ",32,C,*,,L\n\n\n" | sfdisk -uM -D disk.img
# Format boot partition
sudo losetup /dev/loop0 disk.img -o 32256 sizelimit 41094144
sudo mkfs.vfat -F 32 -n "bootfs" /dev/loop0
sudo losetup -d /dev/loop0
# Format root partition
sudo losetup /dev/loop0 disk.img -o 41126400
sudo mkfs.ext4 -L "rootfs" /dev/loop0
sudo losetup -d /dev/loop0

And now it's time to put some files on our image. Let's start with the Ubuntu core rootfs, available from here.

# Mount the rootfs
mkdir rootfs
sudo mount -o loop,offset=41126400 disk.img rootfs
# Download & unpack Ubuntu Core
wget http://cdimage.ubuntu.com/ubuntu-core/releases/12.04.2/release/ubuntu-core-12.04.2-core-armhf.tar.gz
sudo tar numeric-owner -xf ubuntu-core-12.04.2-core-armhf.tar.gz -C rootfs/

Now's a good time to tweak the file system. Let's start by installing the packages that we need in order to compile Qt.

# Get qemu-user-static so that we can chroot in
sudo apt-get install qemu-user-static
sudo cp /usr/bin/qemu-arm-static rootfs/usr/bin/
# Chroot in
sudo chroot rootfs
# Add the TI PPA to apt sources
printf "deb http://ppa.launchpad.net/tiomap-dev/release/ubuntu precise main\ndeb-src http://ppa.launchpad.net/tiomap-dev/release/ubuntu
precise main" > /etc/apt/sources.list.d/ti.list
apt-key adv recv-keys keyserver keyserver.ubuntu.com B2E908737DB60AD5
# Also enable universe
sed -i 's/#  universe$/\1 universe/g' /etc/apt/sources.list
# Better mount a few things before we start installing…
mount /dev
mount /dev/pts
mount /proc
# And update & upgrade
apt-get update
apt-get upgrade -y
# Install packages which we require for Qt
apt-get install libegl1-sgx-omap4 libgles2-sgx-omap4 libegl1-sgx-omap4-dev libgles2-sgx-omap4-dev libdrm-dev libwayland-dev libgbm-dev libffi-dev
# …and anything else we might need, such as an SSH server
apt-get install netbase isc-dhcp-client openssh-server -y
# All done, clean up and get out
service udev stop
umount /proc
umount /dev/pts
umount /dev
exit
sudo rm rootfs/usr/bin/qemu-arm-static

Here are a few other things which may be handy for development:

# Enable serial console
cat > ttyO2.conf <<EOF
start on stopped rc or RUNLEVEL=[2345]
stop on runlevel [!2345]

respawn
exec /sbin/getty -L 8 115200 ttyO2
EOF
sudo mv ttyO2.conf rootfs/etc/init/
sudo chmod +x rootfs/etc/init/ttyO2.conf

# Allow root to login without a password
sudo sed -i 's/root:/root:/' rootfs/etc/shadow

When we are done with the rootfs, unmount it:

sudo umount rootfs


Now it's time to deal with the boot partition. There are other bootloaders out there, but U-boot is popular and easy to get working.

# Create a boot.script for U-boot
cat > boot.script <<EOF
setenv bootargs console=tty0 console=ttyO2,115200n8 root=/dev/mmcblk0p2 rw earlyprintk vram=48M omapfb.vram=0:24M,1:24M consoleblank=0
fatload mmc 0:1 0x80000000 uImage
bootm 0x80000000
EOF
# Compile the script for U-boot
mkimage -A arm -T script -C none -n "Boot Image" -d boot.script boot.scr
# Get the kernel and bootloader files from Ubuntu
wget http://ports.ubuntu.com/ubuntu-ports/dists/precise/main/installer-armhf/current/images/omap4/netboot/MLO
wget http://ports.ubuntu.com/ubuntu-ports/dists/precise/main/installer-armhf/current/images/omap4/netboot/u-boot.bin
wget http://ports.ubuntu.com/ubuntu-ports/dists/precise/main/installer-armhf/current/images/omap4/netboot/uImage
# Mount the boot partition
mkdir bootfs
sudo mount -o loop,offset=32256 disk.img bootfs
# And copy everything over
sudo cp MLO u-boot.bin uImage boot.scr bootfs/
# All done, unmount
sudo umount bootfs


Ok, now you've got an image. As long as it's been properly unmounted and you should be able to dd it to an SD card.


Build Qt

Make sure you have your native and cross-compilers installed. Ubuntu provides one (so does Linaro):

sudo apt-get g-arm-linux-gnueabihf build-essential

You will want to mount that rootfs from the previous section to make life easier when building Qt. From above:

mkdir rootfs
sudo mount -o loop,offset=41126400 disk.img rootfs

Now configure (note the last 3 include arguments; these are required due to funky placement of the GBM/DRM headers in the TI repository):

./configure -device linux-pandaboard-g++ -nomake tests -nomake examples -prefix /your_path_to_qt -sysroot /your_rootfs_path
-I/your_rootfs_path/usr/include -I/your_rootfs_path/usr/include/gbm -I/your_rootfs_path/usr/include/drm

If all goes well, you should be able to run

make && make install

to finish building Qt. If an important feature is missing (like OpenGL ES 2), run configure with -v for potentially helpful error messages. It should be possible to build OpenGL ES 2 along with the EGLFS, minimal EGL, and KMS QPA plugins.

Android