Szymon Stefanek Mon Mar 04 2008 ############################################################################### General notes for the installation of the 3.4.0 release of KVIrc ############################################################################### This document contains the procedures to compile and install the version 3.4.0 of KVIrc. ############################################################################### # 0. Table of contents ############################################################################### 1. Introduction 2. Guru-level installation 3. Hacker-level installation 4. Human (detailed) installation instructions 5. How to compile KVIrc with TQt-embedded 6. Compiling KVIrc on Mac OS X 7. A note about Windows 95/98/ME ############################################################################### # 1. Introduction ############################################################################### This document contains the procedures to compile and install the version 3.4.0 of KVIrc. If you have found this document in a binary distribution then KVIrc has been probably already installed by your favorite package manager and maybe something is not working as expected. In this case this document and the accompanying FAQ can help you in guessing what's wrong. If you have found this document in a source distribution or you have downloaded it by using the svn then well... this is a standard INSTALL file :) ############################################################################### # 2. Guru installation: ############################################################################### # ./configure # make install ############################################################################### # 3. Hacker installation: ############################################################################### If you're compiling the svn version of KVirc run ./autogen.sh (You NEED automake >= 1.5 for autogen.sh to run). # export TQTDIR="your tqtlibrary path" eventually: # export TDEDIR="your kde library path" We're using GNU tools here. # ./configure --help # ./configure [your options] # make # make install ############################################################################### # 4. Human (detailed) installation: ############################################################################### If you're not a guru, or have problems with the installation read these instructions carefully. ### ### Step 0 (ONLY FOR THE SVN VERSION) ### If (*** AND ONLY IF ***) you're compiling the svn version of kvirc you need to generate the configure script. If you're compiling a downloaded tar.gz (or tar.bz2) package or you don't know what svn is then jump directly to step 1! You need a recent automake and autoconf installed on your system. It is also reccomended to have a recent (matching) libtool installed (libtool is not strictly necessary since KVIrc has a bundled one, but a libtool matching your automake/autoconf versions will probably run better on your system). Anyway, run: # ./autogen.sh If it runs without any error (it will tell you "Done") then you may skip to step 1, otherwise read on. First of all check your auomake version. You need automake >= 1.5: older versions will NOT WORK. You can check the automake version with the command # automake --version If your automake version is lower than 1.5 upgrade it. You can find it at http://www.gnu.org/software/automake/ (source) or on your favorite distribution site as auto-installing package. Automake installation tip: automake installs in /usr/local/ by default. If you have an older automake installation that resides in /usr/ it's better to remove it or (better) overwrite it with the new installation. If you choose to overwrite the old installation with the new one then just use "./configure --prefix=/usr" as the automake's configure command. If you choose to remove the old version then the files to be removed are /usr/bin/automake /usr/bin/aclocal /usr/share/automake /usr/share/aclocal. If you feel unsure about removing it, rename it. If the script fails to run then you might try # ./autogen.sh --bundled-libtool to force the usage of the bundled libtool version. If you later have unexplicable problems with the compilation tools you might also try the bundled libtool. ### ### Step 1 : Matching the requirements ### - You NEED a fully working C++ compiler. Most linux distributions have it pre-installed and if you have already compiled other programs before then you're probably ok, so actually skip this check and go ahead. If anything fails in the following steps then this is the very first thing to verify. A broken compiler installation usually manifests itself in failed ./configure tests (dlopen capabilities). Try # gcc -v # g++ -v on the commandline. If it says something about "command not found" then you miss some gcc related package. Install it from the distro cd. - You NEED the TQt library. TQt is maintained by TDE, the main www site is https://trinitydesktop.org. Note for the GPL maniacs: TQt IS GPL. The minimum required version is 3.1.2 (older versions *might* work) Download and install it by following the rules explained in the excellent documentation that comes with the library. - You need a decent pthread implementation. This is usually included in your distribution and is probably already installed. The library is called libpthread.so. You can look for it with the "find" command: # find / -name libpthread.so On my system the output is: # /usr/lib/libpthread.so If you don't have it (the configure script will tell you) you can download it from your favorite GNU mirror. On Solaris you can use the native libthread.so library instead but you will have to pass the specific option to configure (see below). FreeBSD has a native implementation of pthreads in libc_r and the gcc compiler has a special -pthread flag to link to it. If you're on FreeBSD, use the --with-freebsd-pthread configure option and make sure that you don't have other pthread wrappers installed (that might collide with the native header files). The configure script will also fail if the library is hidden somewhere on your system (eg. not in /lib , /usr/lib or /usr/local/lib): you should probably move it. - You need the dynamic linker interface library libdl.so. This is usually installed on your system , so don't care until configure complatins about it. Some system have the interface builtin in libc. The configure script can detect it. - (Optional) If you want to compile the KDE integration support you obviousy need KDE. The tdelibs package should suffice. - (Optional) If you want the translations to non-english languages to work then you need the GNU gettext package. In particular KVIrc uses the msgfmt program. This is usually included in your distribution and is probably already installed. You can check it by running # msgfmt --version KVIrc will not complain if the command above is missing: it will just skip the creation of the translation files. If the command above fails then you need to install the gettext package if you want any language other than english. - (Optional) If you want DCC VOICE to support the gsm codec, you need a recent copy of libgsm. This is not strictly required at compile time since KVIrc will look for the library at run-time, and only if the DCC VOICE with the gsm codec is requested. You can check for libgsm using the 'find' command. # find / -name libgsm* The output should be sometihg like # /usr/lib/libgsm.so This library is included in most distributions. Some distros ship only the static version of the library "libgsm.a": if the previous find returned only something similar to "/usr/lib/libgsm.a" , you might create manually the shared archive by running: # cd /usr/lib # ld --whole-archive -shared -o libgsm.so.1 libgsm.a # ln -s libgsm.so.1 libgsm.so # ldconfig If you don't have it installed at all, you might have a look in your distribution CD, or download it from the web. - (Optional) If you want the /snd plugin to play various audio formats you either need a running artsd, a running esd or a reasonably recent audiofile library. Without these KVIrc will be only able to play *.au files. - (Optional) If you want to generate the on-line documentation you also need perl: any version will do (I guess). - (Optional) If you want the secure socket layer support to be compiled you need the OpenSSL library and headers. (libssl.so and openssl/ssl.h) - (Optional) If you want perl scripting support to be compiled you need a working perl installation. Your libperl.so MUST be compiled with the MULTIPLICITY option. (You can check it with perl -V). ### ### Step 2 : Running the configure script (mandatory) ### First of all you must run the configure script that will guess some info about your system and prepare the compilation. You may try to "simply run" it and check if it works...the configure script tries to be smart , but in some cases it will fail. So before running the script make sure that the enviroinement variable $TQTDIR points to the right location. This will help in finding the correct version of TQt. You might eventually set it with the command: # export TQTDIR="your tqt dir" On my system tqt is installed in /usr/local/kde/tqt so I actually execute # export TQTDIR="/usr/local/kde/tqt" If you want to compile the KDE support you might want to do the same with TDEDIR # export TDEDIR="your kde dir" In my case KDE is installed in /usr/local/kde so I use # export TDEDIR="/usr/local/kde" The configure script has a lot of options that can be listed by using # ./configure --help Here's a list with explainations (the most common are at the top): --enable-debug This is for debugging and reporting problems. It sets the compiler options in order to leave the debugging informations into the kvirc executable and the libraries. In this way you will be able to produce a gdb backtrace in case of a crash. YOU NEED THIS OPTION IF YOU WANT TO REPORT A PROGRAM CRASH. --enable-pipes Asks the compiler to use pipes instead of files for the compilation stage. The pipes will help in reducing disk usage and will probably shorten the compilation a bit. Use this option if your platform supports it. --with-tqt-library-dir= Look for the tqt library in . You might want to use this if the configure script has trouble in finding the tqt library. You should have no problems if you use export TQTDIR="" before launching the configure script, but it might help you if you have a non standard TQt installation. --with-tqt-include-dir= Look for the tqt headers in . You might want to use this if the configure script has trouble in finding the tqt headers. It may especially help if your headers are in a place different than $TQTDIR/include (and thus you have a non standard installation) --with-tqt-moc= Use the tqt meta-object compiler found in The path is usually $TQTDIR/bin/moc , and the configure script will find it if you have a standard TQt installation and $TQTDIR points to the right directory. Thus should have no problems if you use export TQTDIR="" before launching the configure script, but it might help you if you have a non standard TQt installation. This will also help if you have the moc compiler renamed in some way: like "moc2" or sth... in this case is a FULL path: directory/program_name! --disable-tqt-check This disables TQt checking at compilation time. If this is the only way to compile and run the kvirc executable , then there is something wrong with the configure script. --without-kde-support The configure script will look for the KDE headers and libraries and if found it will enable the KDE support. If you don't want the KDE support even if KDE is detected, just use this switch. --with-kde-library-dir= Look for the KDE libraries in If $TDEDIR points to the right place, you shouldn't need this. --with-kde-include-dir= Look for the KDE headers in If $TDEDIR points to the right place, you shouldn't need this. --with-kde-services-dir= Install the kde service protocol files in If $TDEDIR points to the right place, you shouldn't need this. This is also non-critical for kvirc: if the configure script can't find this directory, you will only looose the support for irc:// urls in konqueror --without-kde-check Similar to --without-tqt-check but for KDE. --enable-optimisation= Enables the compiler optimisation flag -o. Possible values are 0 , 1, 2 and 3 (but if you compiler supports more optimisation levels , you might use other numbers here). Increases compilation time but may produce a slightly faster executable. --with-other-libs= Explicitly link to the specified libraries. Example: --with-other-libs="-lmylib -lstrangesystemsupport" --with-other-ldirs= Explicitly add the specified library search paths Example: --with-other-ldirs="-L/home/pippo/lib/ -L/my/library/" --with-other-idirs Explicitly add the specified include search path Example: --with-other-idirs="-I/home/pippo/include/ -I/tmp/inc/" --enable-objprelink This is an experimental support for object prelinking that improves significantly the executable startup time. In order to use it you need to have the "objprelink" program in the PATH. The objprelink program is included in the distribution in the admin directory. In order to use it, you will need to: # cd admin # make objprelink # cp objprelink /somewhere_on_your_path All this AFTER running ./configure and BEFORE running make. --with-no-pthread-check Do not check if the pthread stuff works. If configure fails in the pthread library check , you might want to try this...(but then you will have really to "pray" that the check has been broken by some "unusual" conditions and the compilation will succeed). --x-includes=DIR Specifies explicitly the path to the X header files. You might want to use this if the configure script has trouble in finding it. --x-libraries=DIR Specifies explicitly the path to the X libraries. You might want to use this if the configure script has trouble in finding it. --with-tqt-name= Use instead of "tqt" as the TQt library name. This is useful on systems where TQt has been installed with a name different than the default "tqt". It happens often that to allow multiple copies of tqt to work the newest have the version name appended to it. If you use this option, you will probably also need to remap the moc compiler path/name with --with-tqt-moc. --disable-tqt-mt Disable checking for the multithreaded version of TQt. By default , KVIrc will try to link to the multithreaded version if found on the system. NOTE: if you enable the KDE support , KVIrc MUST be linked to the tqt library that KDE is linked to. --with-ix86-asm KVIrc contains some ix86 assembly routines that *could* performs some things faster (this is not always true, depends on the compiler). You might want to try it if your kvirc seems to be really slow... --without-ipv6-support The IPV6 support is compiled by default on the platforms that support it: this option disables it. Even if you have a plain IPV4-only connection, you might want to keep the IPV6 support: you will be able to lookup IPV6 hostnames. --without-system-memmove This will disable the use of the system memmove() memcpy() and memset() functions and enable the bundled implementations. Use it if you have undefined references to these functions while compiling. --with-ignore-sigalarm This is a hack mainly for Solaris. Use this option if kvirc exits with no apparent reason and the system prints a message related to an "Alarm" :) This is a mail that suggests an explaination for the SIGALARM fault. If you experience the problem please drop me a mail at pragma at kvirc dot net and we'll try to look for a solution. From: "Andre Stechert" (astechert at email dot com) Date: 26/7/2005 09:36 Hi,         I noticed in your readme that you were having problems with sigalarm in your solaris port and you weren't sure why.  I quickly scanned your source code and noticed that you use usleep and threads.  That's the problem, if you haven't already figured it out. On Solaris, usleep is implemented with SIGALARM. So is threading. So if you the active thread changes while a usleep is in progress, bang, the process is dead. --without-crypt-support Disables the cryptographic engines and the whole cryptography/text-transformation support. Produces a slightly smaller executable. Anyway, if you don't know what the ctryptography/text-transformation support is ,I suggest you to avoid using this option. --enable-new-kvs Developers only! This enables the compilation of the new KVS parser, currently under heavy development. This will produce a bigger and possibly unstable executable: do not use if you don't know what you're doing. --enable-new-kvs-only Developers only! This hardwires the new KVS parser to be used as the main scripting engine in KVIrc. Be aware that the new KVS engine is NOT YET 100% COMPLETE so some scripts will simply fail. --without-transparency This option disables pseudo-transparency support. The pseudo transparency support makes the KVirc windows look like semi-transparent (this is NOT real transparency: this is just a nice-looking hack). If KDE support is enabled, KVirc will have an option that makes all windows use a faded KDE desktop background image as background. Without KDE support you will be able to choose a fake background image and use it as background. (You can still choose your desktop wallpaper: this will (more-or-less) work in all the window managers). It is cool-looking but usually eats some memory when enabled. It also eats some executable size. So this option allows to disable the pseudo-transparency. --with-solaris-lthread If you're on Solaris and don't have the pthread library (A wrapper I guess) you might try this option: it attempts to use the native Solaris threading support. --with-freebsd-pthread If you're on FreeBSD, you NEED this option. This enables the usage of the native FreeBSD pthread implementation found in libc_r. This requires you to use the native gcc compiler: it has a special -pthread flag that enables the linkage to libc_r instead of plain libc. --with-libresolv Link to libresolv. I guess that this is required for Solaris --with-libsocket Link to libsocket. I guess that this is required for Solaris --with-libnsl Link to libnsl. I guess that this is required for Solaris --with-libcompat Link to libcompat. This might be required for some systems... but I have no idea which ones. If you find it useful: mail me. --enable-fno-rtti Disables compiler runtime type information generation. This is probably needed only with tqt-embedded. DON'T use it if you don't exactly know what it does. Actually this may even make KVIrc crash in some situations. For example the KDE sources use __dynamic_cast... --disable-x-support Disables completely the X Windows support. This is useful in environments where X is not needed to compile KVIrc such as TQt-Mac on MacOSX, QtEmbedded or Windows. This switch implies also --without-x-bell --without-x-bell Disables the usage of the XBell function (needed if you want to compile KVIrc with tqt-embedded (no X at all)) This is implied by --disable-x-support --with-tqt-embedded You need this to compile KVIrc with tqt-embedded --without-ipc Disables support for inter-process communication. You will be not able to send remote commands to running kvirc sessions: this basically means that every time you run the kvirc executable , a new session will be started. If you don't use this switch, a new session will be started only if no session is running on the same display or "new session" has been forced by a commandline switch. If a session is already running, the commandline will be passed to that session via IPC (X-event-based communication). This option saves some KB of the KVIrc executable, so if you're really short in memory , you might use it, otherwise, IPC is a nice feature. --without-dyn-labels You should not need this option. It disables compilation of code that relies on a particular compiler feature (jumping to a dynamic label with a goto). Not all compilers support this , but configure shoud detect it automatically. Anyway , if you get compilation errors on kvi_ircview.cpp, you may try this option... This may also help if the configure script seems to hang when checking for the "compiler dynamic label support". --without-splash-screen Do not compile the splash screen code. This will remove you that nice "banner" image that pops up while kvirc is starting up. It will maybe help in making an executable smaller by a couple of KB and save a couple of extra milliseconds during the startup. Use it if you're tring to build a performance critical executable and you're short both in memory and CPU time :) --without-gsm Explicitly disable the usage of the GSM library. This will disable the DCC VOICE gsm codec but might help when the compilation stops complaining of something related to GSM :) --without-dcc-sound Explicitly disable the DCC VOICE sound support. This might help if you have problems in compilation of src/modules/dcc/voice.cpp. It will disable the sound support (and thus make DCC VOICE not usable). --disable-ssl Disables the secure socket layer support. The SSL support is automatically enabled if OpenSSL is detected at ./configure time. This option forces it to be left out. --with-memory-profile Debug stuff...enables memory allocation profiling (don't use it :) --with-memory-checks Enables malloc() memory checks. This will print a nice message if your system goes out of memory... It can't save you from buying new RAM, but at least you will know that your system went out of memory and it is not a proper kvirc fault. Actually you probably have no reason in using it. --with-big-channels Minor hash table optimisations: higher memory usage but faster user lookups. Use it if you often stay in channels with a lot of users. (this is not critical anyway) --enable-profiling Asks the compiler/linker to include profiling informations in the executable. This is useful only if you want to profile KVIrc by using the gprof program. Note that this will generate a bigger and slower executable. --disable-perl Forcibly disable perl support. So finally you have to run # ./configure For example , my common options are: # ./configure --enable-pipes --enable-debug On FreeBSD I have found useful this command line: # ./configure --with-tqt-name=qt2 --with-tqt-moc=//moc2 \ --with-freebsd-pthread Once the configure script ran succesfully you can go to the next step. ### ### Step 3 : Compiling (mandatory) ### This step is easy: Cross your fingers and run # make kvirc If your make is not a GNU make (this happens on FreeBSD for example) you should use "gmake" instead. The compilation process will take from 6-7 minutes to several hours depending on the machine capabilities and load. If you have a slow cpu but have a couple of computers in a lan you might consider using distcc to distribute the compilation. Once the compilation has been succesfull, run # make install Same as above: use "gmake install" if your make is not GNU make. This will install the executable in /usr/local/bin (if you don't have specified a different --prefix option in the configure script) , the libraries in /usr/local/lib and the shared data in /usr/local/share/kvirc. If you had a previous kvirc installation , the default prefix will be referring to the directory where the old kvirc executable was found. Make sure that /usr/local/lib is in your /etc/ld.so.conf , if it isn't there , put it there and run # ldconfig If you have decided to use the KDE support the installation might have placed all these files in your $TDEDIR tree instead of /usr/local. In this case you should be OK since KDE requires its library dir to be in /etc/ld.so.conf ### ### Step 4: Having fun ### # kvirc & That's all folks. ############################################################################### # 5. Compiling KVIrc on tqt-embedded ############################################################################### Do you want KVIrc 3 on your hand computer ? On your Nokia 9999910 ? On your LINUX CONSOLE? Well, for the third it's really easy, just follow carefully those steps: 1. Install tqt-embedded libraries (including the development files). This can be as easy as: apt-get install libtqt-emb-dev on Debian. 2. cd to the KVIrc3 source directory 3. run configure with the following parameters: # ./configure --with-tqt-name=qte --with-fno-rtti --without-x-calls --without-ipc --without-splash-screen --without-transparency --with-tqt-embedded --without-x-bell then run make and make install as usual 4. Try to have a life for the next minutes while kvirc3 compiles 5. You need your kernel with framebuffer support (it's under 'Console') so if your kernel don't have it reconfigure and recompile your kernel. 6. switch to a console 7. export TQTDIR=[path] On Debian is '/usr' 8. Read http://doc.trolltech.com/3.0/envvars.html and configure your environment vars until kvirc3-emb loads (it will give you an error indicating what went wrong else). Pay especial attention to QWS_MOUSE_PROTO, QWS_CARD_SLOT and QWS_DISPLAY 9. Enjoy :) ############################################################################### # 6. Compiling KVIrc on MacOSX ############################################################################### There is a detailed compilation and installation HOWTO for MacOSX systems located in the doc dorectory. ############################################################################### # 7. A note about Windows 95/98/ME ############################################################################### On Windows versions prior to 2000 the KVIrc binary may refuse to start because of an incompatible msvcrt.dll included in the distribution. If this happens to you then you may try the following tricks: - Find msvcrt.dll in your C:\Windows directory. It may also be in C:\Windows\System or C:\Windows\System32 Copy it to the KVIrc installation folder overwriting the existing msvcrt.dll shipped with kvirc. - Find msvcrt.dll somewhere on the net. An url hint might be: http://www.dll-files.com/dllindex/dll-files.shtml?msvcrt Download the file and copy it to the KVIrc installation folder overwriting the existing msvcrt.dll shipped with kvirc. If none of the two steps work for you please write a mail to pragma at kvirc dot net reporting your exact Windows version and build and including the exact messages that the system reports when trying to run the KVIrc executable. Thanx to Dusan Hokuv for reporting this and suggesting the fixes.