Qt on Pi Contribute: Difference between revisions
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=== Updating <code>mt-cross-tools</code> h3. === | === Updating <code>mt-cross-tools</code> h3. === | ||
<code>mt-cross-tools</code> repository which is available on | <code>mt-cross-tools</code> repository which is available on [http://qt.gitorious.org/qtonpi/mt-cross-tools Gitorious] or [http://codereview.qt.io/#admin,project,qtonpi/mt-cross-tools,info Gerrit]. | ||
'''Note -''' You will need to clone <code>mt-cross-tools</code> into the <code>platform-sdk/</code> subdirectory of your QtonPi release. | '''Note -''' You will need to clone <code>mt-cross-tools</code> into the <code>platform-sdk/</code> subdirectory of your QtonPi release. |
Revision as of 15:36, 4 March 2015
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[toc align_right="yes" depth="2"]
Qt on Pi - Contribute
QtonPi Platform
With QtonPi platform we aim to provide our community with the tools needed to create awesome Qt 5 Apps on Raspberry Pi hardware. We intend to take a minimalistic approach towards what's included in the platform and let our App Developers drive the evolution of the platform with real world App use cases.
QtonPi platform is not intended to be another full fledged Linux distribution. While we plan to use packages and tools from other distributions, our goal really is to provide an easy-to-use flexible innovation environment for Qt and Qt related technologies.
We really welcome your contributions to QtonPi platform.
Following are some general principles on which we hope to build QtonPi platform
- Full cross-build environment for QtonPi stack
- No GPLv3 packages
- Clean separation (to the extent possible without excessive over-engineering) of QtonPi packages and Raspberry Pi specific packages
- Upstream as much as possible and aim to maintain minimal set of necessary changes in QtonPi project
QtonPi Platform consists of the following,
- SD Card Image
- Toolchain and Sysroot
- Qt Creator based App SDK
- Cross-build tools
QtonPi Roadmap
QtonPi software stack can be broken down into three layers. These layers exits so that folks in the QtonPi community can organize themselves in areas that they're most passionate about. The layers are,
- Base Layer
- Middleware
- Apps
Base Layer
Base Layer essentially consists of everything above the hardware providing all the enablers to run our middleware. This includes - boot loader, codecs, kernel, root filesystem, RPM packages, compiler, build environment, etc.,
Middleware
Our middleware consists of Qt 5 (plus additional optional modules where it makes sense) and a Qt Creator based QtonPi SDK for App Creation along with all the community documentation we can put together.
That's it! Nothing more, nothing less.
The programming models that we will support would be,
- Qt C++
- JavaScript
For UI, you can use,
- QML (or)
- HTML (though QtWebKit)
Apps
Interesting Apps is something that we hope our community will create, so that we can build a better Middleware and Base Layer.
We might have scenarios where we might not be able to provide all the APIs needed for folks trying to do some really cool Apps with QtonPi.
We should however make it easy both at the Base Layer and Middleware for folks to be able to add their own APIs where necessary and provide all the freedom for App Developers innovate.
Releases
QtonPi is a community project. Following is a general direction on where we would like to go.
Release-0
- Base Layer
- Fedora RPM Packages plus some additional Raspberry Pi Specific packages
- Linaro GCC 4.5.4 toolchain
- QtonPi image creator and sysroot tools
- Middleware
- Documentation on how to get toolchain + sysroot + Qt Creator working to Develop Apps
- Qt 5 running on full-screen EGLFS mode
Release-1
Target - Spring 2012
- Base Layer
- OpenSuse QtonPi Packages (without GPLv3 packages)
- Build Envrionment
- Updated Compiler (GCC 4.6)
- QtProcessManager
- QtJsonDB (App Development)
- Middleware
- QtonPi SDK delivered as an installer with integrated toolchain + community documentation
- Auto configuration/discovery of Raspberry Pis from QtonPi SDK
- Qt 5 running on Full Screen EGLFS mode
Release-2
Target - Summer 2012
- Base Layer
- Migrate to a kernel version that supports CMA
- Update or add packages to support Multimedia and Multi-process Qt/Qt Quick Apps
- Provide an example compositor environment based on qt-compositor and process manager
- Middleware
- Update QtonPi SDK to include the release version of Qt 5
- Improve community documentation
QtonPi Image Creator and Sysroot
QtonPi releases comes with a default SD Card Image and Sysroot. Following instructions are for you to be able to build your custom SD Card Image and Sysroot.
Download and Installation Requirements
In order to build your custom QtonPi SD Card Image/Sysroot, you'll need Fedora 14 (as it is the distro most contributors are working on). We hope in subsequent release we can take this dependency away.
Setting up Fedora 14
First please ensure that you've all the necessary development tools on your host. You can do this by installing the
Development Tools
meta-package.
$ sudo yum groupinstall 'Development Tools'
Once this is done, next step would be to install
augeas-libs
, which is needed to install
zypper
package.
$ sudo yum install augeas-libs
Installing host-rpms
host-rpms
You will find
host-rpms
in the following directory.
qtonpi-X.Y/
├── platform-sdk/
│ ├── host-rpms/
To install, just go into that directory and do an
sudo rpm -ivh *
$ pwd
/home/rajiv/qtonpi-0.2/platform-sdk/host-rpms
$ sudo rpm -ivh *rpm
Getting Image Creator and Sysroot scripts
Image Creator and Sysroot tools are shipped as a part of the QtonPi software release in the
mt-cross-tools
directory which you should find here,
qtonpi-X.Y/
├── platform-sdk/
│ └── mt-cross-tools/
Creating custom Sysroot
mksysroot-rasp-pi
script present in
mt-cross-tools
directory can be used to build custom sysroot. This script must be run as
root
user and it needs a file containing a list of RPM packages that you would like to be installed in your sysroot. Default sysroot packages are provided in the file
rasp-pi-sysroot-list.default
.
$ ./mksysroot-rasp-pi
This script must be run as root
usage: sudo ./mksysroot-rasp-pi RPM_LIST
Note -
mksysroot-rasp-pi
generates the sysroot at
/opt/qtonpi/armv5tel-qtonpi-linux-gnueabi/sys-root
. Please make sure that this directory does not exist before running the script.
$ pwd
/home/rajiv/qtonpi-0.2/platform-sdk/mt-cross-tools
$ sudo ./mksysroot-rasp-pi rasp-pi-sysroot-list.default
[sudo] password for rajiv:
./
./zypp/
./zypp/zypp.conf
./zypp/systemCheck
./zypp/zypper.conf
./zypp/repos.d/
./zypp/repos.d/f14.repo
using the following repos:
# | Alias | Name | Enabled | Refresh
—''———''———————————''———''———
1 | f14-arm | ARM RPM Repository for Fedora14 | Yes | No
refreshing the repos, this will take awhile (~ 5min)
[…]
$ ls /opt/qtonpi/armv5tel-qtonpi-linux-gnueabi/sys-root
./ bin/ dev/ home/ media/ opt/ root/ selinux/ sys/ usr/
../ boot/ etc/ lib/ mnt/ proc/ sbin/ srv/ tmp/ var/
$
Your newly minted sysroot is now available at
/opt/qtonpi/armv5tel-qtonpi-linux-gnueabi/sys-root
Creating custom SD Card Image h3.
Partition Layout h4.
For QtonPi Release 0.x, we've organized the SD Card as follows. Assuming your SD Card is on
/dev/sdb
device.
# fdisk /dev/sdb
Command (m for help): p
Disk /dev/sdb: 1977 MB, 1977614336 bytes
61 heads, 62 sectors/track, 1021 cylinders, total 3862528 sectors
Units = sectors of 1 * 512 = 512 bytes
Sector size (logical/physical): 512 bytes / 512 bytes
I/O size (minimum/optimal): 512 bytes / 512 bytes
Disk identifier: 0x0000cded
Device Boot Start End Blocks Id System
/dev/sdb1 62 249611 124775 c W95 FAT32 (LBA)
/dev/sdb2 249612 2250289 1000339 83 Linux
/dev/sdb3 2250290 3248737 499224 82 Linux swap / Solaris
Command (m for help): q
#
All partitions are primary partitions.
- The first partition is a Fat32 partition which consists of the secondary bootloader, kernel, and other files needed to be initalize the GPU.
- The second paritition is a Ext4 partition, where the root filesystem resides
- The third partition is a swap partition that we've thrown in for a good measure. This might be removed in the subsequent releases.
Feel free to resize the partitions depending on the space available on your SD Card. However, we do urge you preserve this layout. You can use Apps such as
Disk Utility
,
fdisk
,
parted
and
mkfs
to manipulate the partition layout to fit your needs.
Boot Partition h4.
The boot partition must be a FAT32 partition. The contents of this partition is shipped in the file
rasp-pi-kernel-3.1-partition.tar.bz2
, which is located here,
qtonpi-0.2
├── platform-sdk
│ ├── image-creator-binaries
│ │ ├── rasp-pi-kernel-3.1-modules.tar.bz2
So, to build your boot partition, all you need to do is to extract the contents of this file onto that partition.
Assuming your boot partition is mounted at
/media/boot
, you could do something like,
$ cd /media/boot
$ sudo tar jxvf /home/rajiv/qtonpi-0.2/platform-sdk/image-creator-binaries/rasp-pi-kernel-3.1-partition.tar.bz2
[sudo] password for rajiv:
./
./arm224_start.elf
./cmdline.txt
[…]
$
Root Filesystem h4.
The root partition must be an Ext4 partition.
mkrootfs-rasp-pi
script present in
mt-cross-tools
directory can be used to build custom rootfs. This script must be run as
root
user and it needs a two things.
- Pointer to directory where you would like your rootfs to be built
- File containing a list of RPM packages that you would like to be installed in your sysroot
Default rootfs packages are provided in the file
rasp-pi-rootfs-list.default
$ ./mkrootfs-rasp-pi
This script must be run as root
usage: sudo ./mkrootfs-rasp-pi ROOTFS_DIR RPM_LIST
Now, to build your new rootfs at
/tmp/rootfs
,
$ pwd
/home/rajiv/qtonpi-0.2/platform-sdk/mt-cross-tools
$ sudo ./mkrootfs-rasp-pi /tmp/rootfs rasp-pi-rootfs-list.default
[sudo] password for rajiv:
using the following repos:
# | Alias | Name | Enabled | Refresh
—''———''———————————''———''———
1 | f14-arm | ARM RPM Repository for Fedora14 | Yes | No
refreshing the repos, this will take awhile (~ 5min)
[…]
unpacking the etc files
unpacking the kernel modules
unpacking the gles libs
unpacking qt5
$ ls /tmp/rootfs
./ bin/ dev/ home/ media/ opt/ root/ selinux/ sys/ usr/
../ boot/ etc/ lib/ mnt/ proc/ sbin/ srv/ tmp/ var/
$
Your newly minted rootfs is now available at
/tmp/rootfs
. You can now copy over this directory over to the rootfs partition on the SD Card. Assuming your rootfs partition is mounted at
/media/root
, you can do the following,
$ sudo rsync -av /tmp/rootfs/* /media/root/
[sudo] password for rajiv:
[…]
var/tmp/
var/yp/
sent 503804268 bytes received 250274 bytes 9082063.82 bytes/sec
total size is 502887293 speedup is 1.00
$ ls /media/root
./ bin/ dev/ home/ lost+found/ mnt/ proc/ sbin/ srv/ tmp/ var/
../ boot/ etc/ lib/ media/ opt/ root/ selinux/ sys/ usr/
$
Your SD card is now ready with custom QtonPi image for use on Raspberry Pi.
Updating mt-cross-tools
h3.
mt-cross-tools
mt-cross-tools
repository which is available on Gitorious or Gerrit. Note - You will need to clone
mt-cross-tools
into the
platform-sdk/
subdirectory of your QtonPi release.
$ pwd
/home/rajiv/qtonpi-0.2/platform-sdk
$ git clone git://gitorious.org/qtonpi/mt-cross-tools.git
Cloning into mt-cross-tools…
remote: Counting objects: 64, done.
remote: Compressing objects: 100% (56/56), done.
remote: Total 64 (delta 20), reused 0 (delta 0)
Receiving objects: 100% (64/64), 34.68 KiB, done.
Resolving deltas: 100% (20/20), done.
After cloning, your relative directory structure should look as follows,
qtonpi-X.Y/
├── platform-sdk/
│ └── mt-cross-tools/