Difference between revisions of "Category:How to - Build helloworld"

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m (Update for latest OE toolchain changes)
m (Fixed some whitespace)
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  OETMP = ${OVEROTOP}/tmp
 
  OETMP = ${OVEROTOP}/tmp
 
   
 
   
 +
# There were some OE toolchain path changes recently
 +
   
 
  # OE prior to around 30July2010  
 
  # OE prior to around 30July2010  
 
  # TOOLDIR = ${OETMP}/cross/armv7a/bin
 
  # TOOLDIR = ${OETMP}/cross/armv7a/bin
 
  # STAGEDIR = ${OETMP}/staging/armv7a-angstrom-linux-gnueabi/usr
 
  # STAGEDIR = ${OETMP}/staging/armv7a-angstrom-linux-gnueabi/usr
 
+
   
  # OE after 30July2010, the multi-machine safe toolchain patches
+
  # OE after 30July2010
 
  TOOLDIR = ${OETMP}/sysroots/`uname -m`-linux/usr/armv7a/bin
 
  TOOLDIR = ${OETMP}/sysroots/`uname -m`-linux/usr/armv7a/bin
 
  STAGEDIR = ${OETMP}/sysroots/armv7a-angstrom-linux-gnueabi/usr
 
  STAGEDIR = ${OETMP}/sysroots/armv7a-angstrom-linux-gnueabi/usr

Revision as of 06:08, 14 August 2010

Overview

What follows is a description for building C programs on a workstation using the cross-build tools of OpenEmbedded, but NOT USING the bitbake/recipe framework.

For an alternative method USING the bitbake/recipe framework, a series of sample recipes can be found here.

Setup

Follow the instructions for setting up a build environment to get the cross-build tools correctly installed.

The tools are built under the TMPDIR directory declared in ${OVEROTOP}/build/conf/site.conf.

TMPDIR defaults to ${OVEROTOP}/tmp, but you can point it somewhere else.

Makefile

After you have built an image, the cross-tools will be installed on your workstation.

You can now create a standard makefile for your project pointing to this cross-build toolchain.

Here is a simple example for helloworld.

# Makefile for building with the OE cross tools 
#
# OVEROTOP is normally ${HOME}/overo-oe 
#
# OETMP is the same as TMPDIR as defined in ${OVEROTOP}/build/conf/site.conf
#

OETMP = ${OVEROTOP}/tmp

# There were some OE toolchain path changes recently
   
# OE prior to around 30July2010 
# TOOLDIR = ${OETMP}/cross/armv7a/bin
# STAGEDIR = ${OETMP}/staging/armv7a-angstrom-linux-gnueabi/usr
   
# OE after 30July2010
TOOLDIR = ${OETMP}/sysroots/`uname -m`-linux/usr/armv7a/bin
STAGEDIR = ${OETMP}/sysroots/armv7a-angstrom-linux-gnueabi/usr

CC = ${TOOLDIR}/arm-angstrom-linux-gnueabi-gcc

CFLAGS = -Wall  

LIBDIR = ${STAGEDIR}/lib

INCDIR = ${STAGEDIR}/include      
 
TARGET = helloworld

OBJS = helloworld.o 


${TARGET} : $(OBJS)
        ${CC} ${CFLAGS} ${OBJS} -L ${LIBDIR} -o ${TARGET}

helloworld.o: helloworld.c 
        ${CC} ${CFLAGS} -I ${INCDIR} -c helloworld.c  

clean:
        rm -f ${TARGET} ${OBJS} *~

Distribute

After building with make, copy the resulting target executable to the overo.

Here are some alternatives.

1. If you are using a microSD card, copy your executable to the rootfs before you unmount it in the final step.

2. If you have a network connection to the overo, use scp.

3. If you are doing a network boot then copy the executable directly to the nfs exported root filesystem the gumstix is using on the workstation.

Only the Tools

You don't need to build a complete image to get the cross-tools.

If you only want to cross compile a C program without third-party dependencies, then you can build just the gcc-cross recipe.

bitbake gcc-cross

You can use OE to selectively build additional cross-compiled libraries as needed. Look around in the OE recipes folder.

If you build a complete image, then most of the cross-build tools and libraries will get installed as as side-effect. That is probably the easiest way to setup your workstation the first time.

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