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Platform SDK and SB2

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(Initialize scratchbox2)
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=== Initialize scratchbox2 ===
 
=== Initialize scratchbox2 ===
  
  cd /parentroot/srv/mer/targets/n950rootfs
+
  cd /srv/mer/targets/n950rootfs
 
  sb2-init  -L "--sysroot=/" -C "--sysroot=/" -c /usr/bin/qemu-arm-dynamic -m sdk-build -n -N -t / nemo-n950 /opt/cross/bin/armv7hl-meego-linux-gnueabi-gcc
 
  sb2-init  -L "--sysroot=/" -C "--sysroot=/" -c /usr/bin/qemu-arm-dynamic -m sdk-build -n -N -t / nemo-n950 /opt/cross/bin/armv7hl-meego-linux-gnueabi-gcc
  
Line 188: Line 188:
 
If zypper fails with "Cant open /var/run/zypp.pid in mode w" you can fix it with:
 
If zypper fails with "Cant open /var/run/zypp.pid in mode w" you can fix it with:
  
  cd /parentroot/srv/mer/targets/n950rootfs/var
+
  cd /srv/mer/targets/n950rootfs/var
 
  rm run && mkdir run
 
  rm run && mkdir run
  

Revision as of 14:32, 13 September 2012

The most straightforward way to use Scratchbox2 is within the Mer Platform SDK. This page will go through the steps of using SB2 to compile a simple program.

Contents

Prerequisites

Create a simple C program

We'll use ~/src/hello.c as the location of our code.

mkdir ~/src
cat <<EOF >~/src/hello.c
#include <stdio.h>
int main(int argc, char **argv)
{
   printf("Hello World\n");
   return 0;
}
EOF

And now to compile it:

sb2 gcc ~/src/hello.c -o ~/src/hello

This gets:

 sb2: Error: Invalid target specified, aborting.

When sb2 runs it needs to know where to get header files and libraries and what architecture and cross-compiler to use. This is called a 'target'. SB2 can be configured to run against multiple named targets.

SB2 Setup

Target Preparation

A target is a rootfs that contains development files like headers, libraries and possibly programs. Notably it does *not* need to contain compilers, linkers etc.

Still running in the sdk we'll create a target in the recommended /srv/mer/targets/ area.

sudo mkdir -p /parentroot/srv/mer/targets
sudo chown -R $USER /parentroot/srv/mer/targets

Also make sure that /sbin is included in your PATH environment variable.

Now we need a kickstart file and then we can use mic to create the target

 cd /tmp
 curl -O http://releases.merproject.org/releases/0.20120315.1/kickstarts/mer-core-armv7hl-xorg-basic-qmlviewer.ks
 sudo mic create fs mer-core-armv7hl-xorg-basic-qmlviewer.ks -o /parentroot/srv/mer/targets --pkgmgr=yum --arch armv7hl

(Note: if you use a kickstart with @BUILD_ID@ and use the --release= option to mic then mic creates a slightly different structure and your rootfs will end up in /parentroot/srv/mer/targets/<release>/images/<name> and you'll have to move it)

The final step is to make sure the rootfs is all owned by the user. SB2 uses fakeroot when needed and won't work if the target has root-owned files.

 sudo chown -R $USER /parentroot/srv/mer/targets/*

This target could be any suitable rootfs such as a Nemo or PA rootfs.

Target Setup

To tell SB2 about the target we use sb2-init which gives the target a name - in this case "mer-core".

IMPORTANT : You must change directory to the target rootfs before running sb2-init.

 cd /parentroot/srv/mer/targets/mer-core-armv7hl-xorg-basic-qmlviewer
 sb2-init -d -L "--sysroot=/" -C "--sysroot=/" -c /usr/bin/qemu-arm-dynamic -m sdk-build -n -N -t / mer-core /opt/cross/bin/armv7hl-meego-linux-gnueabi-gcc

Notes

  • some messages about "cannot find 'ld'" and "no gcc" are expected.
  • running sb2-init again with the same name will just change the values for that name - make sure each target is named uniquely.

We now need to work around bug #238:

 echo -n "armv7hl-meego-linux" > etc/rpm/platform

Note that this may not affect all targets and will need an appropriate value for the target architecture until the bug is resolved.

And prepare the target for installation (all these steps will eventually be handled by a target preparation script or similar):

 sb2 -t mer-core -m sdk-install -R rpm --rebuilddb
 sb2 -t mer-core -m sdk-install -R zypper ref --force

The target is now ready to be used by sb2.

Compile the simple C program

Again run:

 sb2 gcc ~/src/hello.c -o ~/src/hello

This time:

 ~/src/hello.c:1:19: fatal error: stdio.h: No such file or directory

This is because the target has no development header files in it.

We need to be at the target root (this is bug #239) and then we can install some basic header files: Note the important use of the "-m sdk-install" and the "-R". The -m tells sb2 to use a mapping mode that permit the updating of the target and -R tells sb2 to run as fake root.

 cd /parentroot/srv/mer/targets/mer-core-armv7hl-xorg-basic-qmlviewer
 sb2 -m sdk-install -R zypper in glibc-devel

You'll need to do this for any build requirements of your code.

SB2 Detailed setup information

The sb2-init options mean:

  -d : make this the default target
  -L : linker options
  -C : compiler options
  -c : which qemu to use
  -m : which mapping to use by default
  -n : don't build libtool
  -N : don't do localisation for the target
  -t : the location of the build tools
  mer-core : The name of the target
  /opt/cross/bin/armv7hl-meego-linux-gnueabi-gcc : the cross-compiler to use

Alternate targets

Creating an SB2 Target for any (non-x86) Mer OBS package (draft)

osc provides the ability to do a "local build" where it creates a chroot within the SDK suitable for building a package.

When SB2 is enabled on the OBS (as it is in the MeeGo public OBS) then it also creates a suitable SB2 'target'.

So checkout the package from OBS, start a local build, setup the SB2 target:

osc co PROJECT PACKAGE
cd PROJECT/PACKAGE

determine which repository/architecture to build for

osc repos

Then run a build (you can interrupt this once it's started, there is a new option to osc called --chroot-only coming soon)

osc build REPO ARCH

Note the build root from the above command or use this to find it:

osc chroot

Check the directory of the osc chroot and use the ./target/ directory in there for your SB2 target:

 cd CHROOT/target
 sb2-init -L "--sysroot=/" -C "--sysroot=/" -c /usr/bin/qemu-arm-dynamic -m sdk-build -n -N -t / TARGETNAME /opt/cross/bin/armv7hl-meego-linux-gnueabi-gcc

(If you like you could move this to /srv/mer/targets/ before running the cd/sb2-init commands but then osc build wouldn't upgrade it anymore)

At this point you can go to your ~/src/package.git/ directory and run

sb2 -t TARGETNAME make

The advantage of this approach over a full rootfs target are that:

  • it's smaller
  • it uses the osc package cache so can be updated with smaller downloads
  • it works with packages that are changing on the OBS (so can be run against branched projects)
  • it's probably more suitable for working with other people and collaborating via the OBS
  • the rootfs can be upgraded and packages added using osc (especially the -x option)

The disadvantages are

  • it is currently more manual
  • it only installs the development packages that are listed by the spec file as build-dependencies
  • it's not as re-useable across multiple packages

N950 Nemo Mobile

Nemo/N950 rootfs can be found at: http://repository.maemo.org/meego/Nemo/ (choose the armv7hl-n950 images).

To setup cross compiling for N950 (armv7hl) do the following inside the sdk chroot

Setup target

Extract the Nemo N950 rootfs as a target and set file permissions:

sudo mkdir -p /srv/mer/targets/n950rootfs
cd /srv/mer/targets/n950rootfs
sudo tar xjvf /path/to/nemo-n950-image.tar.bz2
sudo chown -R $USER .

note: if you're doing this as the root user and not with sudo, remember to replace $USER with your regular username.

Initialize scratchbox2

cd /srv/mer/targets/n950rootfs
sb2-init  -L "--sysroot=/" -C "--sysroot=/" -c /usr/bin/qemu-arm-dynamic -m sdk-build -n -N -t / nemo-n950 /opt/cross/bin/armv7hl-meego-linux-gnueabi-gcc

Note: If you installed the mer-core target earlier, that will be your default target. If you, however, like the nemo-n950 to be your default target, add the -d switch to the command line above.

The compiler should now work but you are still missing libraries to compile against. Install what you need into the n950 rootfs. For example:

sb2 -t nemo-n950 -m sdk-install -R zypper ref
sb2 -t nemo-n950 -m sdk-install -R zypper install gcc-c++ 

If zypper fails with "Cant open /var/run/zypp.pid in mode w" you can fix it with:

cd /srv/mer/targets/n950rootfs/var
rm run && mkdir run

If the installation fails due to permission errors give your user write permissions to the places the packages are being installed and retry. After this you can compile for example a c hello world by

cd
cat << "EOF" > hello.c
#include <stdio.h>
int main(int argc, char **argv)
{
   printf("Hello\n");
   return 0;
}
EOF

To run a simple compile, tell sb2 what target to use (ie the name used in the sb2-init):

sb2 -t nemo-n950 gcc hello.c -o hello

Verify that the compilation worked

$ file hello
hello: ELF 32-bit LSB executable, ARM, version 1 (SYSV), dynamically linked (uses shared libs), for GNU/Linux 2.6.25, not stripped
$ sb2 ./hello 
Hello

More typically you'll use

 sb2 -t nemo-n950 make

Vivaldi

Place here any Vivaldi specific instructions for Plasma Active or Nemo development

Plasma Active

Plasma Active rootfs can be found here (built 25 March 2012) - https://img.merproject.org/images/web/vgrade/6-20120325-173308/plasmaactive-armv7l-c71-devel-rootfs.tar.bz2

Setup target

Extract the PlasmaActive Vivaldi rootfs as a target and set file permissions:

sudo mkdir -p /srv/mer/targets/plasmaactive-vivaldi-rootfs
cd /srv/mer/targets/plasmaactive-vivaldi-rootfs
sudo tar xjvf /path/to/plasmaactive-armv7l-c71-devel-rootfs.tar.bz2
sudo chown -R $USER .

Initialize scratchbox2

Note usage of armv7l here (that's what's currently used for Plasma Active Vivaldi C71) in contrast to armv7hl in other examples.

cd /srv/mer/targets/plasmaactive-vivaldi-rootfs
sb2-init  -L "--sysroot=/" -C "--sysroot=/" -c /usr/bin/qemu-arm-dynamic -m sdk-build -n -N -t / plasmaactive-vivaldi /opt/cross/bin/armv7l-meego-linux-gnueabi-gcc

Install some tools

sb2 -m sdk-install -R zypper refresh
sb2 -m sdk-install -R zypper install gcc-c++

Cross compilation

Create some source: hello.cpp:

#include <iostream>

int main(int argc, char* argv[])
{
   std::cout << "Hello World!\n";
   return 0;
}

Compile it:

 sb2 g++ hello.cpp -o hello

Run:

 sb2 ./hello
 Hello World!

Check architecture:

 file hello
 hello: ELF 32-bit LSB executable, ARM, version 1 (SYSV), dynamically linked (uses shared libs), for GNU/Linux 2.6.25, not stripped

Nemo (Vivaldi)

Additional Notes

Installation

If your SDK did not have the SB2 tools installed then you can do:

 sudo zypper ar http://releases.merproject.org/releases/latest/builds/i486/cross mer-cross-tools
 sudo zypper ref
 sudo zypper in sdk-sb2-config qemu-usermode mpc cross-armv6l-gcc cross-armv6l-binutils cross-armv7l-gcc cross-armv7l-binutils cross-mipsel-gcc cross-mipsel-binutils cross-armv7hl-gcc cross-armv7hl-binutils

Directory Mappings

SB2 uses a sophisticated file mapping system to access the right tools and the right source code. The definitions are stored in /usr/share/scratchbox2/modes/sdk-build/fs_rules.lua

The current SDK definitions recognises a few filesystems:

/home
/mer
/maemo
/everything

Additional entries can be made if your source lives elsewhere (eg /media or /data etc).

Using multiple targets

You can use multiple targets with the SDK. Set up each target as described above.

To perform some action for a specific target add the -t option:
sb2 -t <target> ...
To list all set targets:
sb2-config -l
To set up a default target:
sb2-config -d <target>
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