Build from Source » History » Revision 43
Revision 42 (neels, 05/25/2018 12:00 PM) → Revision 43/66 (neels, 05/25/2018 12:06 PM)
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h1. Build from Source
bq. *Before you consider building from source, be aware that there are [[Binary Packages]]
available for Debian + Ubuntu platforms. These are recommended for normal users.*
Osmocom projects use autoconf/automake.
The general pattern for building is:
<pre>
cd source-tree
autoreconf -fi
./configure
make
make check
make install
sudo ldconfig
</pre>
The @./configure@ step may need further configuration options, and
@./configure@ will tell you which dependencies are still missing, if any.
See below for project specific details and troubleshooting.
The @make@ step may be sped up by using multiple CPU cores:
<pre>
make -j 8
</pre>
We take care to make our builds parallelizable with @-j@, but in case
@make -j@ fails, issuing a simple @make@ could fix the problem.
h1. Dependencies
Which libraries are needed by various Osmocom programs is best resolved during
the @./configure@ step described below. This script checks for any missing
dependencies and issues corresponding error messages.
Here is a (probably incomplete) overview of dependencies between Osmocom
projects:
| _To build ..._ | _... you also need ..._ |
| osmo-bts | libosmocore, libosmo-abis, openbsc (source tree only), L1 headers depending on BTS model |
| osmo-pcu | libosmocore, L1 headers depending on BTS model |
| osmo-hlr | libosmocore, libosmo-abis |
| osmo-mgw | libosmocore, libosmo-abis, libosmo-netif |
| osmo-msc | libosmocore, libosmo-abis, libosmo-netif, libosmo-sccp, osmo-mgw (for libosmo-mgcp-client), libsmpp34 (for --enable-smpp); for 3G, use --enable-iu and add: osmo-iuh, libasn1c |
| osmo-bsc | libosmocore, libosmo-abis, libosmo-netif, libosmo-sccp, osmo-mgw (for libosmo-mgcp-client) |
| osmo-sgsn | libosmocore, osmo-ggsn; for 3G, use --enable-iu and add: osmo-iuh, libasn1c |
| osmo-ggsn | libosmocore |
h1. External dependencies
If you want to build on specific Linux distros, you might need to install additional dependencies before the build will succeed
-- this is a collection of various dependencies used by various osmocom projects:
| _To build on ..._ | _...you might need to install these packages:_ |
|Ubuntu 16.10 | libpcsclite-dev libtalloc-dev libortp-dev libsctp-dev libmnl-dev libdbi-dev libdbd-sqlite3 libsqlite3-dev sqlite3 libc-ares-dev libgnutls-dev |
|Debian 8 and 9| build-essential gcc g++ make automake autoconf libtool pkg-config libtalloc-dev libpcsclite-dev libortp-dev libsctp-dev libssl-dev libdbi-dev libdbd-sqlite3 libsqlite3-dev libpcap-dev libc-ares-dev libgnutls28-dev libsctp-dev sqlite3|
|FreeBSD 11|automake autoconf libtool git pkgconf talloc pcsc-lite python gmake ortp|
|Fedora 25|dnf install @development-tools autoconf automake libtool libtalloc-devel pcsc-lite-devel ortp-devel openssl-devel lksctp-tools-devel libmnl-devel libdbi-devel libdbi-dbd-sqlite libpcap-devel |
h1. Download Sources
The latest Osmocom sources are available from git at https://git.osmocom.org,
where each project's overview page displays the actual git URL.
The projects' repository URLs generally are of the pattern:
<pre>git://git.osmocom.org/project-name</pre>
(To contribute, see [[Coding Standards#Submitting-Patches|Submitting Patches]])
For example, to verify libosmocore's git repository URL, browse to
https://git.osmocom.org/libosmocore/ and observe the URL shown at the
bottom of the page under _Clone_: @git://git.osmocom.org/libosmocore@
Then download this URL using the @git@ client:
<pre>
git clone git://git.osmocom.org/libosmocore
</pre>
It is also possible to download specific releases' tarballs for each git ref
that is defined. For example, browse to https://git.osmocom.org/libosmocore/,
click on _refs_ on the top and select any branch or tag, e.g. "0.9.0":https://git.osmocom.org/libosmocore/tag/?h=0.9.0
All of these download instructions hold true for any of the git repositories,
not limited to libosmocore.
h1. Build debian packages
Most Osmocom projects are setup and ready for building debian packages.
See the @debian/@ subdir in each source tree.
For example, to build a libosmocore debian package:
<pre>
cd libosmocore/
dpkg-buildpackage -tc -uc -us
# then, you can install the package on your system with
sudo dpkg -i ../libosmocore*.deb
</pre>
These steps are identical for all other Osmocom projects that are ready for debian packaging.
Advantages of debian packages:
* they allow you to easily install the same binaries on several machines,
* you don't need to keep the source tree around,
* they guarantee a clean de-installation later.
Note: when not using debian packages, i.e. after a '@make install@' directly from the source tree,
you can also achieve a clean de-installation with '@make uninstall@'.
h1. Details and Troubleshooting
Here is a list of the most common configuration items or pitfalls to be
aware of when building specific Osmocom projects.
h2. Non-GNU Systems
On systems like FreeBSD, you need to run @gmake@ instead of @make@.
h2. Cross-Compiling for a BTS Platform
To build new software for the sysmoBTS and Litecell 1.5, you will typically
cross-compile using an SDK matching the BTS. You should find specific instructions
in, for example, the sysmoBTS manual.
h2. General ./configure options
To provide the installation location, which is /usr/local by default:
<pre>
./configure --prefix=$HOME/my_osmocom_inst
</pre>
If you choose a non-standard location, later builds may fail to find it.
For example, if you built libosmocore with a custom prefix, a subsequent
build of libosmo-abis, which needs libosmocore installed, may fail.
You can tell a build process where to look for libraries to compile against
using the @PKG_CONFIG_PATH@ environment variable.
Furthermore, when you want to run binaries compiled against libraries
installed in a non-standard location, you will have to use the
@LD_LIBRARY_PATH@ environment variable to successfully load the binary.
Particularly, the @make check@ step typically runs such binaries,
as well as when you would like to run the installed binaries yourself.
For example:
<pre>
mkdir -p $HOME/osmo/src
cd $HOME/osmo/src
git clone git://git.osmocom.org/libosmocore
cd libosmocore
autoreconf -fi
./configure --prefix=$HOME/osmo/inst --disable-pcsc
make -j5
make check
make install
sudo ldconfig
cd ..
git clone git://git.osmocom.org/libosmo-abis
cd libosmo-abis
autoreconf -fi
export PKG_CONFIG_PATH=$HOME/osmo/inst/lib/pkgconfig
./configure --prefix=$HOME/osmo/inst
make -j5
export LD_LIBRARY_PATH=$HOME/osmo/inst/lib
make check
make install
sudo ldconfig
</pre>
Note that PKG_CONFIG_PATH points at the prefix's lib/pkgconfig and is needed
during the configure step of a library;
And that LD_LIBRARY_PATH is needed when running binaries that need libraries
installed in the non-standard location, here via @make check@.
Furthermore, when installing to an SDK's sysroot location, you would usually
set @DESTDIR@ to the sysroot with @--prefix=/usr@, resulting in an install
location of @$DESTDIR/usr@.
h2. libosmocore
When @libpcsclite@ is not easily available, e.g. when building for a BTS target platform:
<pre>
./configure --disable-pcsc
</pre>
h2. openbsc
@openbsc@ is so far the only source tree where the build commands must be run
a level deeper than the source tree's root. Enter the second @openbsc@ dir:
<pre>
git clone git://git.osmocom.org/openbsc
cd openbsc/openbsc
autoreconf -fi
[...]
</pre>
h2. osmo-msc and osmo-sgsn for 3G
Be sure to pass the @--enable-iu@ configure option to enable Iu interface support.
<pre>
cd osmo-msc
./configure --enable-iu
</pre>
h1. Example: completely build osmo-bsc, osmo-msc, osmo-sgsn and osmo-ggsn
This is an example of a complete build process for 2G+3G core network,
including SMPP and the "nat" binaries, to the @/usr/local@ prefix; it is assumed
that your system by default scans @/usr/local@ for installed libraries:
If you don't require 3G, you can omit build of osmo-iuh and remove configure flag "--enable-iu" in osmo-msc and osmo-sgsn.
<pre>
osmo_src=$HOME/osmo/src
mkdir -p $osmo_src
cd $osmo_src
git clone git://git.osmocom.org/libosmocore
cd libosmocore
autoreconf -fi
./configure
make -j5
make check
make install
sudo ldconfig
cd $osmo_src
git clone git://git.osmocom.org/libosmo-abis
cd libosmo-abis
autoreconf -fi
./configure
make -j5
make check
make install
sudo ldconfig
cd $osmo_src
git clone git://git.osmocom.org/libosmo-netif
cd libosmo-netif
autoreconf -fi
./configure
make -j5
make check
make install
sudo ldconfig
cd $osmo_src
git clone git://git.osmocom.org/libosmo-sccp
cd libosmo-sccp
autoreconf -fi
./configure
make -j5
make check
make install
sudo ldconfig
cd $osmo_src
git clone git://git.osmocom.org/libsmpp34
cd libsmpp34
autoreconf -fi
./configure
make
make check
make install
sudo ldconfig
cd $osmo_src
git clone git://git.osmocom.org/osmo-mgw
cd osmo-mgw
autoreconf -fi
./configure
make -j5
make check
make install
sudo ldconfig
cd $osmo_src
git clone git://git.osmocom.org/libasn1c
cd libasn1c
autoreconf -fi
./configure
make
make check
make install
sudo ldconfig
cd $osmo_src
git clone git://git.osmocom.org/osmo-iuh
cd osmo-iuh
autoreconf -fi
./configure
make -j5
make check
make install
sudo ldconfig
cd $osmo_src
git clone git://git.osmocom.org/osmo-msc
cd osmo-msc
autoreconf -fi
./configure --enable-iu
make -j5
make check
make install
sudo ldconfig
cd $osmo_src
git clone git://git.osmocom.org/osmo-ggsn
cd osmo-ggsn
autoreconf -fi
./configure
make -j5
make check
make install
sudo ldconfig
cd $osmo_src
git clone git://git.osmocom.org/osmo-sgsn
cd osmo-sgsn
autoreconf -fi
./configure --enable-iu
make -j5
make check
make install
sudo ldconfig
export LD_LIBRARY_PATH="/usr/local/lib"
export PATH="$PATH:/usr/local/bin"
which osmo-msc
osmo-msc --version
</pre>
h1. Example: build script
This is a shell script that builds openbsc and osmo-ggsn,
expecting the git clones to be ready in the current directory:
attachment:build_2G.sh
h1. Example: top-level Makefile
I (neels) use a top-level makefile to manage various configurations and build all source trees in sequence.
See https://git.osmocom.org/osmo-dev and look at the readme file.