CmakeEldk: Difference between revisions

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short ELDK. ELDK supports PowerPC, ARM and MIPS as target systems, it consists of the cross compiling toolchains and
short ELDK. ELDK supports PowerPC, ARM and MIPS as target systems, it consists of the cross compiling toolchains and
the quite complete target environment.
the quite complete target environment.
ELDK shouldn't be much different from other cross compiling toolchains, so the information presented here should be usable also for other Linux-to-Linux cross compiling toolchains.


== Installing ELDK ==
== Installing ELDK ==
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== Write a CMake toolchain file ==
== Writing a CMake toolchain file ==


For CMake to be able to crosscompile software, it requires you to write a toolchain file, which tells CMake
For CMake to be able to crosscompile software, it requires you to write a toolchain file, which tells CMake
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all your toolchain files, e.g. $HOME.
all your toolchain files, e.g. $HOME.


== Build the software for ELDK ==
== Building the software for ELDK ==


Let's say you have the classical hello world software with a CMake based buildsystem and want to build this for ELDK.
Let's say you have the classical hello world software with a CMake based buildsystem and want to build this for ELDK.

Revision as of 21:00, 17 July 2007

How to use a Linux-to-Linux cross compiling GNU toolchain

Linux is in widespread use in embedded systems and handheld devices. There are many commercial and non-commercial projects which provide cross compiling toolchains, one of these is Denx, which offer the Embedded Linux Development Kit, short ELDK. ELDK supports PowerPC, ARM and MIPS as target systems, it consists of the cross compiling toolchains and the quite complete target environment. ELDK shouldn't be much different from other cross compiling toolchains, so the information presented here should be usable also for other Linux-to-Linux cross compiling toolchains.

Installing ELDK

You can find installation instructions at http://www.denx.de/wiki/view/DULG/ELDKDownloadPowerPC , the packages are available at ftp://ftp.sunet.se/pub/Linux/distributions/eldk/ . E.g. if your target has a MIPS processor, you will download the files you can find in ftp://ftp.sunet.se/pub/Linux/distributions/eldk/4.1/mips-linux-x86/iso . The easiest way to use them is to mount these ISO files and then install ELDK using the install executable you will find there:

~/ $ mkdir mount-iso/
~/ $ sudo mount -tiso9660 mips-2007-01-21.iso mount-iso/ -o loop
~/ $ cd mount-iso/
~/mount-iso/$ ./install -d /home/alex/eldk-mips/
...
Preparing...                ########################################### [100%]
   1:appWeb-mips_4KCle      ########################################### [100%]
Done
~/mount-iso/$ ls eldk-mips/
bin  eldk_init  etc  mips_4KC  mips_4KCle  usr  var  version

In eldk-mips/mips_4KC/ and eldk-mips/mips_4KCle/ the target environments have been installed, i.e. complete Linux filesystems for the target platforms. In eldk-mips/bin/, eldk-mips/usr/ etc. host side tools have been installed, so the cross compiler can be found in eldk-mips/usr/bin/mips-linux-gcc.


Writing a CMake toolchain file

For CMake to be able to crosscompile software, it requires you to write a toolchain file, which tells CMake some information about the toolchain. With the examples used above it will look like:

# the name of the target operating system
SET(CMAKE_SYSTEM_NAME Linux)

# which C and C++ compiler to use
SET(CMAKE_C_COMPILER   /home/alex/eldk-mips/usr/bin/mips_4KC-gcc)
SET(CMAKE_CXX_COMPILER /home/alex/eldk-mips/usr/bin/mips_4KC-g++)

# here is the target environment located
SET(CMAKE_FIND_ROOT_PATH  /home/alex/eldk-mips/mips_4KC /home/alex/eldk-mips-extra-install )

# adjust the default behaviour of the FIND_XXX() commands:
# search headers and libraries in the target environment, search 
# programs in the host environment
set(CMAKE_FIND_ROOT_PATH_MODE_PROGRAM NEVER)
set(CMAKE_FIND_ROOT_PATH_MODE_LIBRARY ONLY)
set(CMAKE_FIND_ROOT_PATH_MODE_INCLUDE ONLY)

Save this file as Toolchain-eldk-mips4KC.cmake to some location where you will put all your toolchain files, e.g. $HOME.

Building the software for ELDK

Let's say you have the classical hello world software with a CMake based buildsystem and want to build this for ELDK. main.c:

include <stdio.h>

int main()
{
   printf("Hello world\n");
   return 0;
}

CMakeLists.txt:

ADD_EXECUTABLE(hello main.c)
INSTALL(TARGETS hello DESTINATION bin)

Then run CMake on it to generate the buildfiles, the important point is that you tell it to use the toochain file you just wrote:

~/src/helloworld/ $ mkdir build
~/src/helloworld/ $ cd build
~/src/helloworld/build/ $ cmake -DCMAKE_TOOLCHAIN_FILE=~/Toolchain-eldk-mips4KC.cmake -DCMAKE_INSTALL_PREFIX=/home/alex/eldk-mips-extra-install ..
-- Configuring done
-- Generating done
-- Build files have been written to: /home/alex/src/helloworld/build
~/src/helloworld/build/ $ make
Scanning dependencies of target hello
[100%] Building C object CMakeFiles/hello.dir/main.o
Linking C executable hello
[100%] Built target hello
~/src/helloworld/build/ $ make install
...
-- Installing /home/alex/eldk-mips-extra-install/bin/hello

So that's all. It actually doesn't matter whether it's just a "hello world" or some complex piece of software, the only difference is the usage of the toolchain file. If the software has all required configure checks, it should just build also for ELDK.