Build the Viewer on Linux

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The following are instructions for building the Second Life viewer on linux. This process has been used on debian and debian based systems like ubuntu, and also on Fedora. For other platforms, see Get source and compile.

This article or section is missing vital information. You can help the SL Wiki by editing it.

How to compile FL-1.13.3.58185 and FL-1.13.3.58390 with llmozlib (see discussion)


Building the client

To build the Second Life Viewer you will first need to install the required tools and libraries. The following sections online those dependencies. To simplify building, Linden labs has been nice enough to prepackage some of the libraries.

The Second Life Viewer is not a trivial build, and experience with building large software packages will help you greatly - but don't be daunted, it should be simple once the dependencies are in the right place the first time.

Required tools

There are a number of tools that must be installed first.

  • You will need the SCons build tool [package: scons]
  • You should use the GCC 3.4 C/C++ compiler [debian/ubuntu: g++-3.4, fedora: compat-gcc-34-c++]; other GCC versions are not well-tested; GCC 4.x will NOT currently build the viewer without some code adjustments.
  • You will need yacc and lex [suggest packages: bison, flex]

Unpack the source tree

Choose a location and unpack the source tree and the art work. They will be extracted into a directory call linden.

% tar -xf slviewer-src-<version>.tar.gz
% unzip slviewer-artwork-<version>.zip

Installing the required libraries (that Linden labs can not or does not provide)

FMOD (audio)

  • FMOD provides audio output, but (although 'free' in some senses) is not itself open-source. If you wish to avoid FMOD, thus disabling audio, you may make these changes:
    • Comment-out the libfmod line in indra/newview/viewer_manifest.py
    • Add FMOD=no to your Scons build command when compiling the source.
  • If you want to use FMOD, fetch and unpack FMOD 3.75 <http://www.fmod.org/>

% wget http://www.fmod.org/files/fmodapi375linux.tar.gz
% tar -xzvf fmodapi375linux.tar.gz
% cd fmodapi375linux/
% cp api/inc/* ../linden/libraries/i686-linux/include/
% cp api/libfmod-3.75.so ../linden/libraries/i686-linux/lib_release_client/

google-perftools (memory checking)

  • You will need the google-perftools library [fedora: google-perftools-devel.i386] for the tcmalloc and stacktrace libraries.
  • Google perftools 0.91 or greater [debian/ubuntu: google-perftools-dev, fedora: google-perftools-devel]

Installing the required dependencies (prepackaged by Linden labs)

The Second Life Viewer has a number of compile/link dependencies on external libraries which need to be put in place first - to help you, the source download page contains a link to a slviewer-linux-libs package which you unpack over the source tree to fill most of the dependencies (and thus avoid most of the fiddly work described on this page).

If you download the libs to the top folder, where the linden folder is after getting and extracting the viewer source code tarball, the following command should unpack everything to the right spot.

tar xvfz slviewer-linux-libs-<version>.tar.gz

Doing yourself

If you are porting to a new architecture or wish to make a package tailored to your Linux distribution's own libraries. You will have to install the following additional dependencies listed below. Paths and package names given here are based on Ubuntu 6.06 and may vary according to your Linux distribution.

  • The Curl library [debian/ubuntu: libcurl-dev, fedora: curl-devel] - at least version 7.15.4 is recommended, 7.16.x is ideal.
    • If you are compiling your own version of Curl, then you should consider configuring it to use the c-ares library so that DNS lookups will be asynchronous.
  • The development headers for OpenGL and X11: gl.h, glext.h, glu.h, Xlib.h, and Xutil.h [debian/ubuntu: mesa-common-dev, libglu1-mesa-dev, libx11-dev, fedora: mesa-libGL-devel, mesa-libGLU-devel, libX11-devel]
  • You will need GTK 2.x development headers [debian/ubuntu: libgtk2.0-dev, fedora: gtk2-devel]
  • boost [debian/ubuntu: libboost-dev, fedora: boost-devel]
  • boost-regex [debian/ubuntu: libboost-regex-dev]
  • apr-1 [debian/ubuntu: libapr1.0-dev, fedora: apr-devel]
  • aprutil-1 [debian/ubuntu: libaprutil1.0-dev, fedora: apr-util-devel]
  • xmlrpc-epi 0.51 <http://xmlrpc-epi.sourceforge.net/>
    • note: not xmlrpc-c (xmlrpc-c has a library and headers with the same name but is not compatible)
    • Apply patches from the instructions in patch xmlrpc-epi
      • does this still work?
  • jpeglib [debian/ubuntu: libjpeg62-dev, fedora: libjpeg-devel]
  • SDL [libsdl1.2-dev, fedora: SDL-devel]
  • Vorbis [debian/ubuntu: libvorbis-dev, fedora: libvorbis-devel]
  • ELFIO <http://sourceforge.net/projects/elfio/>
    • This wants to build a static library by default. Afterwards, to create a dynamic libelfio.so: cd ELFIO && g++-3.4 -shared *.o -o libelfio.so
  • OpenJPEG <http://www.openjpeg.org/>
    • note: OpenJPEG 1.1.1 or greater is required which has the macro OPJ_PATH_LEN, if the header has MAX_PATH, then upgrade or it will crash with a divide by zero error as the structures would be two different sizes.
      • what does this mean?
    • 02-26-2007, another set of patches is required to Second Life to make it usable, that is fix a crash, make it look good, and speed it up. See https://jira.secondlife.com:443/browse/VWR-123
      • VWR-123 has been fixed: should this note be removed?
  • expat [debian/ubuntu: libexpat1-dev, fedora: expat-devel]

Copy headers and libraries into the source tree

Here is a guide to the sequence of shell commands needed to copy the required headers and libraries into the Second Life Viewer source tree for building. Actual paths to system headers may vary according to Linux distribution.

  • ${SLSRC} refers to the top-level directory of the Second Life Viewer source tree.

You only need to copy the following if you're not using the handy slviewer-linux-libs package:

cp -a /usr/include/atk-1.0 ${SLSRC}/libraries/i686-linux/include/
cp -a /usr/include/gtk-2.0 ${SLSRC}/libraries/i686-linux/include/
cp -a /usr/lib/gtk-2.0/include/* ${SLSRC}/libraries/i686-linux/include/gtk-2.0/
cp -a /usr/include/glib-2.0 ${SLSRC}/libraries/i686-linux/include/
cp -a /usr/lib/glib-2.0/include/* ${SLSRC}/libraries/i686-linux/include/glib-2.0/
cp -a /usr/include/pango-1.0 ${SLSRC}/libraries/i686-linux/include/

if your GTK is fairly recent and thus needs Cairo:

cp -a /usr/include/cairo/* ${SLSRC}/libraries/i686-linux/include/

If you want to use FMOD (this has already been written above):

  • ${FMOD} refers to the top-level directory into which you unpacked FMOD 3.
cp ${FMOD}/api/inc/* ${SLSRC}/libraries/i686-linux/include/
cp ${FMOD}/api/libfmod-3.75.so ${SLSRC}/libraries/i686-linux/lib_release_client/

Disable llMozLib

Add MOZLIB=no to your Scons build command when compiling the source.

Libs

If you are using our easy slviewer-linux-libs bundle then you can skip the rest of this section, otherwise you will also need to perform the following:

  • ${OPENJPEG} refers to the top-level directory of your completed OpenJPEG build.
  • ${ELFIO} refers to the top-level directory of your completed ELFIO build.

cp -a /usr/include/apr-1.0/ ${SLSRC}/libraries/i686-linux/include/apr-1
mkdir ${SLSRC}/libraries/i686-linux/include/expat
cp -a /usr/include/expat*.h ${SLSRC}/libraries/i686-linux/include/expat/
mkdir ${SLSRC}/libraries/i686-linux/include/zlib
cp -a /usr/include/zlib*.h ${SLSRC}/libraries/i686-linux/include/zlib/
mkdir ${SLSRC}/libraries/i686-linux/include/openjpeg
cp ${OPENJPEG}/libopenjpeg/openjpeg.h ${SLSRC}/libraries/i686-linux/include/openjpeg/
cp ${OPENJPEG}/libopenjpeg.a ${SLSRC}/libraries/i686-linux/lib_release_client/
mkdir ${SLSRC}/libraries/i686-linux/include/ELFIO
cp ${ELFIO}/ELFIO/*.h ${SLSRC}/libraries/i686-linux/include/ELFIO/
cp ${ELFIO}/ELFIO/libelfio.so ${SLSRC}/libraries/i686-linux/lib_release_client/
mkdir ${SLSRC}/libraries/i686-linux/include/jpeglib
cp -a /usr/include/j*.h ${SLSRC}/libraries/i686-linux/include/jpeglib/
touch ${SLSRC}/libraries/i686-linux/include/jpeglib/jinclude.h
mkdir ${SLSRC}/libraries/i686-linux/include/llfreetype2
cp -a /usr/include/freetype2/freetype/ ${SLSRC}/libraries/i686-linux/include/llfreetype2/
cp -a /usr/include/ft2build.h ${SLSRC}/libraries/i686-linux/include/llfreetype2/freetype/
mkdir ${SLSRC}/libraries/i686-linux/include/xmlrpc-epi
cp -a /usr/include/xmlrpc*.h ${SLSRC}/libraries/i686-linux/include/xmlrpc-epi/

Compiling

Build Types

The BUILD parameter specifies the build type. For normal usage, use release. If you plan to work on the source, choose releasenoopt or debug, as these versions are unoptimized and much easier to debug.

  • release: Optimized build for release.
  • releasenoopt: Unoptimized build.
  • debug: Debug build with assertions.
  • releasefordownload: Optimized build for release, will create a .tar.gz with the files for distribution.

Building

$ cd indra
$ scons DISTCC=no BTARGET=client BUILD=release MOZLIB=no

Expect a build time of a couple of hours. The resulting unstripped Second Life Viewer binary is newview/secondlife-i686-bin. Note that temporary object code is compiled into /tmp/$USER by default (where $USER is your username) - this can be changed by prefixing the scons command above with TEMP_BUILD_DIR="[full directory path]". For example:

$ TEMP_BUILD_DIR="/home/fred/secondlife/temp-build" scons DISTCC=no BTARGET=client BUILD=release

To build a release that has all of the shaders and optimizations enabled and resembles the official shipped Linux alpha client, use BUILD=releasefordownload

Be sure to read the Common compilation problems page if you have problems - we'll try to keep the page up to date with known problems and solutions.

Testing and packaging the client

Testing the result from inside the tree

You may find it simpler and less error-prone to follow the instructions in the Packaging the client section below to run the client under the same conditions as an end-user would. Otherwise:

  • Preparing to run 'in-tree'
    • ensure that you have indra/newview/app_settings/static_*.db2 - if not, you'll find it in the 'slviewer-artwork' download (a zip file).
    • now, from the indra directory:

$ cp ../scripts/messages/message_template.msg newview/app_settings/

  • Running it: The LD_LIBRARY_PATH stuff ensures that the binary looks for its libraries in the right places. From the indra directory:

$ ( cd newview && LD_LIBRARY_PATH=../../libraries/i686-linux/lib_release_client:${LD_LIBRARY_PATH}:/usr/local/lib  ./secondlife-i686-bin )

    • For version 20070117a the binary name seems to have changed to secondlife-i686-bin-globalsyms, so the command would be (Tofu Linden says - this was an oversight after a build process change, and future releases will generate a secondlife-i686 again, whereupon this instruction can be removed. :))

$ ( cd newview && LD_LIBRARY_PATH=../../libraries/i686-linux/lib_release_client:${LD_LIBRARY_PATH}:/usr/local/lib  ./secondlife-i686-bin-globalsyms )

Augh!! The client seems REALLY slow!!

By default, the open-source Second Life Viewer uses the open-source OpenJPEG library to decode the (many) JPEG-2000 texture images it receives from the servers. Unfortunately this isn't quite of comparable speed to the proprietary third-party library which the Linden Lab viewer builds have traditionally used, for which we are not permitted to redistribute the source.

However, the slviewer-linux-libs package includes two pre-built libraries which facilitate the use of this smoother image decoding method: libkdu_v42R.so and libllkdu.so. These are provided for your testing; again, we are not permitted to grant you the right to re-distribute these libraries to downstream users, but the viewer will still work (albeit slower) without them.

To use these faster image-decoding libraries, they simply need to be put into the right places relative to the viewer runtime directory - nothing needs to be reconfigured or recompiled. If you're running the client from the source tree, the following will make the KDU libraries available:

cp "$SLSRC/libraries/i686-linux/lib_release_client/libllkdu.so" "$SLSRC/indra/newview/libllkdu.so"
mkdir "$SLSRC/indra/lib"
cp "$SLSRC/libraries/i686-linux/lib_release_client/libkdu_v42R.so" "$SLSRC/indra/lib/libkdu_v42R.so"

The file indra/newview/viewer_manifest.py contains some commented-out entries describing where these libraries belong; if you uncomment the two lines corresponding to libllkdu and libkdu then they will be automatically copied into the right place in the runtime directory when you follow the 'Packaging the client' instructions below.


Packaging the client

If you substitute 'BUILD=release' with 'BUILD=releasefordownload' in the 'Compiling' section above, then packaging the resulting code, libraries, data and documentation into a tarball for the end-user will be done automatically as the final stage of the build process; the pristine end-user client distribution has been assembled into the directory indra/newview/SecondLife_i686_1_X_Y_Z/ and has also been tarred into indra/newview/SecondLife_i686_1_X_Y_Z.tar.bz2

The file which controls what (and where) files go into the end-user runtime viewer directory is indra/newview/viewer_manifest.py


Automated libraries and headers adjustments, compilation and packaging

Here is a bash script that could save you a lot of time... It basically does all what is described above, and more, and entitles you to compile a SL client very easily:


#!/bin/bash

# make-SL v1.20 (c)2007 Henri Beauchamp. Released under GPL license v2:
# http://www.gnu.org/licenses/gpl.txt

###############################################################################
######## THIS IS QUICK'N DIRTY ALPHA SOFTWARE. USE AT YOUR OWN RISKS ! ########
###############################################################################

# This bash script is aimed at easying up the build process of a SL client.
# It does not cover building it with custom/system openjpeg, elfio or fmodapi
# (we use the provided libraries).
# You may enable or disable the use of your system's library by editing
# the USE_SYSTEM_* variable ("yes" --> use the system library, "no" --> use
# LL's provided ones).
# The script also takes care of updating properly the viewer_manifest.py script
# accordingly, so that you (should) end up with a properly packaged client.

# To use this script, simply make it executable (chmod +x make-SL) and
# put it into /usr/local/bin (or any other directory in your PATH).
# Then, download the slviewer-src-*.tar.gz, slviewer-linux-libs-*.tar.gz,
# slviewer-artwork-*.zip and fmodapi*.tar.gz archives, and finally, invoke
# make-SL as follow:
#   make-SL path_to_archives  (example: make-SL ~/downloads)
# or simply:
#   make-SL
# when invoking from the directory where the archives are.
# The sources will be installed into the PATH_TO_SOURCES directory,
# and the client will be built into the TEMP_BUILD_DIR directory.
# If you want to retry a compilation after fixing something manually and
# don't want make-SL to start all over again, overwriting everything,
# you may invoke it with the --retry option, like this:
#   make-SL --retry
# This script has been tested by the author, on a (very customized)
# Mandrake 10.2 distro. Tested with SL v1.17 sources.

# Where the sources of the client will be held (defaults to "./linden"):
PATH_TO_SOURCES="/usr/src/SL"
# Where to build the client:
export TEMP_BUILD_DIR="$HOME/secondlife"

USE_SYSTEM_GTK="yes"
USE_SYSTEM_SDL="yes"
USE_SYSTEM_SSL="yes"
# Beware: libdb4 makes use of libapr... so you should keep USE_SYSTEM_APR
# and USE_SYSTEM_DB4 in sync.
USE_SYSTEM_APR="no"
USE_SYSTEM_DB4="no"
USE_SYSTEM_OGG="yes"
USE_SYSTEM_ZLIB="yes"
USE_SYSTEM_UUID="yes"
USE_SYSTEM_CURL="no"
USE_SYSTEM_EXPAT="no"
USE_SYSTEM_VORBIS="yes"
USE_SYSTEM_XMLRPC="yes"
USE_SYSTEM_JPEGLIB="yes"
USE_SYSTEM_FREETYPE2="yes"
USE_SYSTEM_PERFTOOLS="yes"

# You may add tune flags here, to optimize the code for your processor.
# Example, for an Athlon XP:
# TUNE_FLAGS="-march=athlon-xp -mtune=athlon-xp"
TUNE_FLAGS=""

# Whether to build with the browser login screen or not:
WITH_MOZILLA="yes"

function update_manifest() {
    grep -v $1 $PATH_TO_SOURCES/indra/newview/viewer_manifest.py >$TEMP_BUILD_DIR/viewer_manifest.py
    mv -f $TEMP_BUILD_DIR/viewer_manifest.py $PATH_TO_SOURCES/indra/newview/viewer_manifest.py
    chmod +x $PATH_TO_SOURCES/indra/newview/viewer_manifest.py
}

function compile() {
    cd $PATH_TO_SOURCES/indra
    echo "Compiling the client into $TEMP_BUILD_DIR..."
    scons DISTCC=no BTARGET=client BUILD=releasefordownload MOZLIB=$WITH_MOZILLA
}

if [ "$TEMP_BUILD_DIR" == "" ] ; then
    export TEMP_BUILD_DIR=/tmp/$USER/SL
fi

# Check to see if we simply want to retry a compilation:
if [ "$1" == "--retry" ] ; then
    compile
    exit $?
fi

# Make sure we don't unpack over an old source tree:
if [ -d linden ] ; then
    rm -rf linden/
fi

if [ -d $PATH_TO_SOURCES ] && [ "$PATH_TO_SOURCES" != "" ] && [ "$PATH_TO_SOURCES" != "/" ] && [ "$PATH_TO_SOURCES" != "." ] && [ "$PATH_TO_SOURCES" != ".." ] && [ "$PATH_TO_SOURCES" != "$HOME" ] ; then
    rm -rf $PATH_TO_SOURCES/
fi

# Use the parameter (if any) as the path to the archives:

PATH_TO_ARCHIVES="."
if [ "$1" != "" ]; then
    if [ -d $1 ] ; then
        PATH_TO_ARCHIVES=$1
    fi
fi

# Let's first unpack everything:
if ! [ -f $PATH_TO_ARCHIVES/slviewer-src-*.tar.gz ] ; then
    echo "You need slviewer-src !"
    exit 1
fi
if ! [ -f $PATH_TO_ARCHIVES/slviewer-linux-libs-*.tar.gz ] ; then
    echo "You need slviewer-linux-libs !"
    exit 1
fi
if ! [ -f $PATH_TO_ARCHIVES/slviewer-artwork-*.zip ] ; then
    echo "You need slviewer-artwork !"
    exit 1
fi
if ! [ -f $PATH_TO_ARCHIVES/fmodapi*.tar.gz ] ; then
    echo "You need fmodapi !"
    exit 1
fi
echo "Extracting the files from the archives..."
tar xzf $PATH_TO_ARCHIVES/slviewer-src-*.tar.gz
tar xzf $PATH_TO_ARCHIVES/slviewer-linux-libs-*.tar.gz
unzip $PATH_TO_ARCHIVES/slviewer-artwork-*.zip >/dev/null
tar xzf $PATH_TO_ARCHIVES/fmodapi*.tar.gz

# fmodapi:
echo "Copying fmodapi files..."
cp -a fmodapi*/api/inc/* linden/libraries/i686-linux/include/
cp fmodapi*/api/libfmod-*.so linden/libraries/i686-linux/lib_release_client/
rm -rf fmodapi*/

# Move the sources to where we want to hold them:
if [ "$PATH_TO_SOURCES" != "linden" ] && [ "$PATH_TO_SOURCES" != "" ] ; then
    echo "Moving the sources to $PATH_TO_SOURCES..."
    mv -f linden $PATH_TO_SOURCES
fi

# Let's own the files:
chown -R $USER: $PATH_TO_SOURCES/

# Make a clean build:
if [ -d $TEMP_BUILD_DIR ] && [ "$TEMP_BUILD_DIR" != "" ] && [ "$TEMP_BUILD_DIR" != "/" ] && [ "$TEMP_BUILD_DIR" != "." ] && [ "$TEMP_BUILD_DIR" != ".." ] && [ "$TEMP_BUILD_DIR" != "$HOME" ] ; then
    rm -rf $TEMP_BUILD_DIR/
fi
mkdir -p $TEMP_BUILD_DIR

# Let's use the system GTK+ if available:
if [ -d /usr/include/atk-1.0 ] && [ "$USE_SYSTEM_GTK" == "yes" ] ; then
    echo "Using the system GTK+..."
    cd $PATH_TO_SOURCES/libraries/i686-linux/include
    rm -rf atk-1.0/ gtk-2.0/ glib-2.0/ pango-1.0/
    rm -f ../lib_release_client/libgtk*
    cp -a /usr/include/atk-1.0 .
    cp -a /usr/include/gtk-2.0 .
    cp -a /usr/lib/gtk-2.0/include/* gtk-2.0/
    cp -a /usr/include/glib-2.0 .
    cp -a /usr/lib/glib-2.0/include/* glib-2.0/
    cp -a /usr/include/pango-1.0 .
    if [ -d /usr/include/cairo ] ; then
        cp -a /usr/include/cairo/* .
    fi
fi

# Let's use the system freetype2 if available:
if [ -f /usr/include/ft2build.h ] && [ "$USE_SYSTEM_FREETYPE2" == "yes" ] ; then
    echo "Using the system freetype2..."
    cd $PATH_TO_SOURCES/libraries
    rm -rf include/freetype/ i686-linux/include/llfreetype2/*
    rm -f include/ft2build.h i686-linux/lib_release_client/libfreetype.a
    cp -a /usr/include/freetype2/freetype/ i686-linux/include/llfreetype2/
    cp -a /usr/include/ft2build.h i686-linux/include/llfreetype2/freetype/
fi

# Let's use the system zlib if available:
if [ -f /usr/include/zlib.h ] && [ "$USE_SYSTEM_ZLIB" == "yes" ] ; then
    echo "Using the system zlib..."
    cd $PATH_TO_SOURCES/libraries
    rm -rf include/zlib/
    mkdir -p i686-linux/include/zlib
    cp -a /usr/include/zlib*.h i686-linux/include/zlib/
fi

# Let's use the system jpeglib if available:
if [ -f /usr/include/jpeglib.h ] && [ "$USE_SYSTEM_JPEGLIB" == "yes" ] ; then
    echo "Using the system jpeglib..."
    cd $PATH_TO_SOURCES/libraries
    rm -rf include/jpeglib/ i686-linux/lib_release_client/libjpeg.a
    mkdir -p i686-linux/include/jpeglib
    cp -a /usr/include/j*.h i686-linux/include/jpeglib/
    touch i686-linux/include/jpeglib/jinclude.h
fi

# Let's use the system xmlrpc-epi if available:
if [ -f /usr/include/xmlrpc.h ] && [ "$USE_SYSTEM_XMLRPC" == "yes" ] ; then
    echo "Using the system xmlrpc-epi..."
    cd $PATH_TO_SOURCES/libraries
    rm -rf include/xmlrpc-epi/ i686-linux/lib_release_client/libxmlrpc.a
    mkdir -p i686-linux/include/xmlrpc-epi
    cp -a /usr/include/xmlrpc*.h i686-linux/include/xmlrpc-epi/
fi

# Let's use the system ogg if available:
if [ -f /usr/include/ogg/ogg.h ] && [ "$USE_SYSTEM_OGG" == "yes" ] ; then
    echo "Using the system ogg..."
    cd $PATH_TO_SOURCES/libraries
    rm -rf include/ogg/ i686-linux/lib_release_client/libogg*
    update_manifest libogg
fi

# Let's use the system vorbis if available:
if [ -f /usr/include/vorbis/vorbisenc.h ] && [ "$USE_SYSTEM_VORBIS" == "yes" ] ; then
    echo "Using the system vorbis..."
    cd $PATH_TO_SOURCES/libraries
    rm -rf include/vorbis/ i686-linux/lib_release_client/libvorbis*
    update_manifest libvorbis
fi

# Let's use the system SDL if available:
if [ -f /usr/include/SDL/SDL.h ] && [ "$USE_SYSTEM_SDL" == "yes" ] ; then
    echo "Using the system SDL..."
    cd $PATH_TO_SOURCES/libraries/i686-linux
    rm -rf include/SDL/ lib_release_client/libSDL*
    update_manifest libSDL
fi

# Let's use the system openssl if available:
if [ -f /usr/lib/libssl.so.0.9.7 ] && [ "$USE_SYSTEM_SSL" == "yes" ] ; then
    echo "Using the system openssl..."
    cd $PATH_TO_SOURCES/libraries/i686-linux/lib_release_client
    rm -f libssl.* libcrypto.*
    update_manifest libssl
    update_manifest libcrypto
fi

# Let's use the system apr if available:
if [ -f /usr/include/apr*/apr.h ] && [ "$USE_SYSTEM_APR" == "yes" ] ; then
    echo "Using the system apr..."
    cd $PATH_TO_SOURCES/libraries/i686-linux
    rm -rf include/apr-1/*
    rm -f lib_release_client/libapr*
    cp -a /usr/include/apr*/* include/apr-1/
    update_manifest libapr
fi

# Let's use the system expat if available:
if [ -f /usr/include/expat.h ] && [ "$USE_SYSTEM_EXPAT" == "yes" ] ; then
    echo "Using the system expat..."
    cd $PATH_TO_SOURCES/libraries
    rm -rf include/expat/
    rm -f i686-linux/lib_release_client/libexpat*
    mkdir -p i686-linux/include/expat
    cp -a /usr/include/expat*.h i686-linux/include/expat/
    update_manifest libexpat
fi

# Let's use the system curl if available:
if [ -f /usr/include/curl/curl.h ] && [ "$USE_SYSTEM_CURL" == "yes" ] ; then
    echo "Using the system curl..."
    cd $PATH_TO_SOURCES/libraries
    rm -rf include/curl/
    rm -f i686-linux/lib_release_client/libcurl.*
    update_manifest libcurl
fi

# Let's use the system db4 if available:
if [ -f /usr/lib/libdb-4.2.so ] && [ "$USE_SYSTEM_DB4" == "yes" ] ; then
    echo "Using the system db4..."
    rm -f $PATH_TO_SOURCES/libraries/i686-linux/lib_release_client/libdb*.so
    update_manifest libdb
fi

# Let's use the system uuid if available:
if [ -f /lib/libuuid.so.1 ] && [ "$USE_SYSTEM_UUID" == "yes" ] ; then
    echo "Using the system libuuid..."
    rm -f $PATH_TO_SOURCES/libraries/i686-linux/lib_release_client/libuuid.*
    update_manifest libuuid
fi

if grep tcmalloc $PATH_TO_SOURCES/indra/SConstruct &>/dev/null ; then
    if [ -f /usr/include/google/malloc_hook.h ] && [ "$USE_SYSTEM_PERFTOOLS" == "yes" ] ; then
        echo "Using the system google-perftools..."
        cd $PATH_TO_SOURCES/libraries/i686-linux/lib_release_client
        rm -r lib_release_client/libtcmalloc.* lib_release_client/libstacktrace.*
        rm -rf include/google/
        cp -a /usr/lib/libstacktrace.* /usr/lib/libtcmalloc.so* lib_release_client/
        cp -a /usr/include/google include/
        update_manifest tcmalloc
        update_manifest stacktrace
    else
        # Remove the google-perftools stuff if not present in the libraries package
        # (problem seen in SL v1.17):
        if ! [ -f $PATH_TO_SOURCES/libraries/i686-linux/lib_release_client/libtcmalloc.so* ] ; then
            update_manifest tcmalloc
            update_manifest stacktrace
            # The following lines remove the
            #   "external_libs += ['tcmalloc', 'stacktrace']"
            # line from SConstruct... and many other lines which renders SConstruct
            # unusable to build anything else than the client... this is a quick'n
            # dirty patch. :-P
            grep -v tcmalloc $PATH_TO_SOURCES/indra/SConstruct >$TEMP_BUILD_DIR/SConstruct
            mv -f $TEMP_BUILD_DIR/SConstruct $PATH_TO_SOURCES/indra/SConstruct
        fi
    fi
fi

# Update the manifest file and enable libkdu packaging. I'm too lazy to use
# awk or perl, here, but that's indeed what should be done...
# The following (very dirty) code may break at some point, depending on what
# LL will put in comments in the manifest file...
# First, remove the lines with libstdc++.so.6 and the crash logger:
update_manifest libstdc
update_manifest crash_logger
# Now, any line with a '#' followed with several spaces _should_ be dealing
# with the libkdu stuff... So, we simply remove the '#"...
sed -e "s/#        them/# them/" $PATH_TO_SOURCES/indra/newview/viewer_manifest.py >$TEMP_BUILD_DIR/viewer_manifest.py
sed -e "s/#   /   /" $TEMP_BUILD_DIR/viewer_manifest.py >$PATH_TO_SOURCES/indra/newview/viewer_manifest.py
#mv -f $TEMP_BUILD_DIR/viewer_manifest.py $PATH_TO_SOURCES/indra/newview/viewer_manifest.py
chmod +x $PATH_TO_SOURCES/indra/newview/viewer_manifest.py

# Missing file... at least in v1.17.
touch $PATH_TO_SOURCES/indra/newview/secondlife-i686.supp

# Add tune flags, if any:
if [ "$TUNE_FLAGS" != "" ] ; then
    sed -e "s/-O2/-O2 $TUNE_FLAGS/" $PATH_TO_SOURCES/indra/SConstruct >$TEMP_BUILD_DIR/SConstruct
    mv -f $TEMP_BUILD_DIR/SConstruct $PATH_TO_SOURCES/indra/SConstruct
fi

compile

FreeBSD

A list of patches is given for Compiling the viewer (FreeBSD).