Version 6 (modified by 7 years ago) ( diff ) | ,
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Porting Software to HelenOS
This page shall contain a brief guide for porting software (e.g. from GNU/Linux) to HelenOS. Currently, it only contains assorted links to existing resources.
Links
- Maintenance instructions for binutils
- Blog posts about GCC porting
- Coastline - scripts for porting POSIX-like software to HelenOS (and some blog posts)
- Python porting: repository and ML announcement
POSIX emulation layer
HelenOS is not another Unix-like OS and thus it needs an emulation for applications that were written for Unix systems.
This emulation is currently in HelenOS provided by libposix
library that provides implementation of functions that are part of POSIX standard but were considered inappropriate for HelenOS.
libposix
provides an (incomplete) illusion that the application has access to standard POSIX headers and functions.
The ported application is then linked with libposix
which translates the calls to HelenOS specific implementations in libc
.
Implementation detail: some of the functions in libc
have the same name as standard POSIX ones or they offer slightly different behaviour.
To prevent naming clashes, symbols in libc.a
are renamed to avoid the need to rename the POSIX versions (which was an older approach where renaming was done during preprocessing, however this approach has various disadvantages).
General approach
For most (reasonable) GNU/Linux programs, we can assume that they are distributed with a ./configure
script.
The purpose of this script is to check the environment and prepare Makefile
s needed for actual compilation.
In order to build the application for HelenOS we "only" need to persuade the configure
script to cross-compile it and use HelenOS specific compiler flags and link with libposix
.
Although this seems as a simple task because configure
offers parameters/variables for exactly this, there are several obstacles.
- HelenOS currently uses Linux ABI and thus the cross-compiler used gives the impression that the target is GNU/Linux system. This could lead to some false expectations.
- There is a lot of compiler/linker flags that are passed. The amount itself obscures a reasonable editing of the command line.
- HelenOS works mostly with static libraries. When linking with static libraries, their order is important and they typically need to come after object files for proper linking. That is not always possible to specify with plain
LDFLAGS
orCFLAGS
settings.
The above means that either patching or some build scripts is sometimes necessary or that the invocation line for configure
is rather complex (or both).
To simplify the above and, foremost, to allow repeatable builds, the so called Coastline was created.
Coastline
Coastline is a set of scripts that allows the developer porting software to HelenOS capture the porting process in a reasonable way.
The porting is captured as a shell script that runs the configure
and other commands needed to build the ported software.
Apart from this it also prepares variables that contains proper path to HelenOS include directories or libraries.
Use of Coastline means that the porting process is reproducible and it also allows to factor our common routines.
Coastline is hosted as a Bazaar repository that can be browsed on-line. To clone the repository, issue the following command:
brz branch bzr://helenos.org/coastline
When the developer uses the Coastline, he is working with 3 directories.
The first one is the directory with Coastline checkout, in the scripts referred to as HSCT_HOME
.
Second one is the build directory where the building happens.
And the last one is directory with HelenOS sources (HSCT_HELENOS_ROOT
).
The following text assumes that following variables point to different directories where you have check-out of the Coastline and HelenOS mainline and also a build directory.
HSCT_HOME=~/helenos/coastline HSCT_HELENOS_ROOT=~/helenos/mainline BUILD_DIR=~/helenos/coast-build-ia32
The build directory needs to be initialized first.
During initialization, headers and libraries from HelenOS source tree are copied to the build directory and used compiler/linker flags are extracted and prepared for further use.
These are stored in the helenos/
subdirectory.
A shell script helenos/env.sh
contains settings of various paths and also the flags for the compiler and the linker.
To initialize the build directory, you need to call
cd $BUILD_DIR $HSCT_HOME/hsct.sh init $HSCT_HELENOS_ROOT
If you specify a profile (e.g. ia32
) as a third argument, the initialization would prepare the build directory for that profile.
Specifying the word build
as a last (fourth) argument would force a complete rebuild for the specified profile.
To avoid surprises from non-standard configuration, the recommended practice is to always forcefully rebuild the profile when initializing the directory:
cd $BUILD_DIR $HSCT_HOME/hsct.sh init $HSCT_HELENOS_ROOT ia32 build
Once the directory is initialized, the user can build the ported software.
The build is invoked by calling hsct.sh
in the following manner:
$HSCT_HOME/hsct.sh build <package>
This would download the tarballs, unpack them and run configure
and make
(or alternatives) for the given software.
Once the build is complete, the user can either package the software into a tarball or directly copy the application to HelenOS source tree. Running
$HSCT_HOME/hsct.sh install <package>
would copy the application (library) to HelenOS source tree that was specified during initialization. Executing
$HSCT_HOME/hsct.sh archive <package>
would create a tarball in archives/
subdirectory.
Unpacking this tarball into uspace/overlay
would effectively install the package.
If you do not want to rebuild the software yourself, you can download pre-built packages.
Porting new software
- harbour files
$shipname
,$shipsources
and$shiptugs
build()
andpackage()
functions
- common issues
- forcing cross-compilation
- naming clashes