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| {{Cleanup | reason=Auto-imported from ExpressionEngine.}} | | [[Category:HowTo]] |
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| | There are multiple ways to deploy a Qt 5 application for desktop Linux systems. One is to create native distribution packages that have dependencies on the distribution's Qt installation, another is to create a self-contained application bundle that contains the application and everything the application needs to run that cannot be expected to be present on each target system, and still another is to create an installer for it. |
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| [[Category:Deploying Qt5 Applications]]
| | ===Creating native distribution packages=== |
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| =Creating installation package of Qt5 application for Linux/X11: Personal Experience=
| | Different distributions do this differently. Please refer to the particular distribution's developer guidelines. |
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| ====[please help to format this article properly]==== | | ===Creating a standalone application bundle=== |
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| I’m quite new in Linux, but recently got a special interest in building apps for this platform using Qt5, as I had already experience in using this framework in Windows. The first issue I was interesting in while moving my projects onto the Linux platform was how do I distribute my apps to others. By “others” I mean people who are not geeks in Linux: they probably more familiar with Windows than Linux and expect an app to be installed in few clicks and appear in their applications menu. So, I formulated my task as
| | Deploying a Qt5 application for Linux as a standalone bundle involves bundling it with the necessary Qt components that are needed for the application to run. These can be Qt libraries, Qt plugins, and especially the Qt platform plugin. |
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| create a simple application for Linux/X11 and package its binaries properly, so that others could download it, easily install and run from the applications menu without any programming/scripting knowledge.
| | A [https://github.com/probonopd/linuxdeployqt deployment tool] is available that automates the prodecures described here and provide an [http://appimage.org/ AppImage]. |
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| I knew that the variety of Linux distribution makes my task a bit challenging, so I decided to start with the simplest case: my app should be installable and runnable at least on the same Linux distro as mine. Mine was Kubuntu 12.10 (with KDE).
| | If you want one utility for cross platform deploy use a [https://github.com/QuasarApp/CQtDeployer cqtdeployer tool] for deploy qt on linux and windows. |
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| First of all, I have downloaded and installed the recent Qt SDK version 5.0.1 directly from the qt-project.org. The installation went successfully, and I launched Qt Creator. Since I was just testing how to deploy my apps rather than what can I develop for Linux, I created a simple GUI application with QMainWindow, a menu and a toolbar. And then I was quite surprised to found out that Qt Creator cannot find any compiler to build the project – Qt Create was complaining that gcc is not found, so I had to install it manually via Kubuntu’s package manager. Now the Qt Creator was able to detect the compiler automatically, and I finally built the app. My app’s name was mflqta (My First Linux Qt App :) ), and the output folder was ~/projects/mflqta/pkg/.
| | Section to be expanded. In the meantime, see http://doc.qt.io/qt-4.8/deployment-x11.html |
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| ==Creating a DEB package== | | ===Creating an installer using the Qt Installer Framework=== |
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| Next, I googled how can I create an installation package for my app. I quickly found that I have to create a DEB package, and there are DEB package creators with GUI, so I downloaded and installed Debreate (the first item in the search results list I got from Google). It contained a link (page Information) to the YouTube video of using this app. The video helped me a lot, and I got an idea what I have to write into the Debreate’s fields. Debreate can create a shortcut for the desktop menu (.desktop file) automatically (page Menu), but I preferred to create it manually, since I wished to be in control of how to name this file, and add the value GenericName: Debreate does not add it if you use its wizard, but then Kubuntu does not show the application’s description in its menu.
| | See http://doc.qt.io/qtinstallerframework/ |
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| Then I started to search how to find the dependencies of my app. I found that I have to use the ldd tool. It lists all the libs loaded by an app. My application depended on many libs. However, in the Debreate’s tutorial the author was building a package for his Qt4 application and he included only a few dependencies. I wished to include all, but in further tests I learned that I cannot simply list names of libs: these should be package name, not lib’s. So I left only libc6, skipping many libs (packages related to MESA, X11, and others). Of course, I wished to include the Qt5 package, but there was no such thing as qt5 in the Kubuntu repository! Only qt4, but this one does not suit, as I learned from building Qt5 apps in Windows. So I listed the following libs form /path/to/Qt/libs/ in the “Files” section: libQt5Core.so.5, libQt5Gui.so.5, libQt5Widgets.so.5, libicuuc.so.49, libicui18n.so.49, libicudata.so.49 (exactly this way, as I found in my tests: not .so, nor .so.5., but .so.5). Later I spent many hours finding out why my installed app cannot start: I had to include the folder platforms and the file libqxcb.so from the /path/to/Qt/plugins/ into the DEB package. And in addition I had to install the library libQt5DBus.so.5, since libqxcb.so requires it.
| | ===Categories=== |
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| Next I spent many hours finding where to place the libs and how to point to my app where they are. Finally, I found the way: I installed the libQt5*, libicu* and platforms into the /usr/lib/i386-linux-gnu/qt5 folder (or maybe /usr/lib/i386-linux-gnu/mflqta is a better choice?), compiled my app with the following line going first in the main() function in main.cpp:
| | * [[:Category:Deploying-Qt5-Applications|Deploying Qt5 Applications]] |
| QApplication::addLibraryPath("/usr/lib/i386-linux-gnu/qt5");
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| and created the mflqta.sh file:
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| <code>
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| #!/bin/sh
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| appname=`basename $0 | sed s,\.sh$,,`
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| dirname=`dirname $0`
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| tmp="${dirname#?}"
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| if [ "${dirname%$tmp}" != "/" ]; then
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| dirname=$PWD/$dirname
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| fi
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| LD_LIBRARY_PATH=/usr/lib/i386-linux-gnu/qt5:${LD_LIBRARY_PATH}
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| export LD_LIBRARY_PATH
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| $dirname/$appname "$@"
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| </code>
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| (I adapted the code found on http://qt-project.org/doc/qt-5.0/qtdoc/deployment-x11.html [qt-project.org]) to be launched from the mflqta.desktop, which is the following:
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| <code>
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| [Desktop Entry]
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| GenericName=My First Linux Qt App
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| Name=mflqta
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| Version=1.0
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| Exec=bash /usr/bin/mflqta.sh
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| Comment=Just testing Qt on Linux
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| Icon=mflqta.png
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| Type=Application
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| Terminal=false
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| StartupNotify=false
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| Encoding=UTF-8
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| Categories=Utility;
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| </code>
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| I left empty the pages Scripts, Changelog and Copyright in Debreate and saved my Debreate project into a mflqta.dbp file. Here its content:
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| <code>
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| [DEBREATE-0.7.7]
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| <<CTRL>>
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| Package: mflqta
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| Version: 1.0.0
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| Section: utils
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| Maintainer: lexasss <lexasss@domain.com>
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| Homepage: [Project Website]
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| Priority: optional
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| Architecture: i386
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| Depends: libc6
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| Description: My first testing Qt app on Linux. Just testing
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| <</CTRL>>
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| <<FILES>>
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| 1
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| /path/to/mflqta/pkg/mflqta.png -> mflqta.png -> /usr/share/pixmaps
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| /path/to/mflqta/pkg/mflqta.desktop -> mflqta.desktop -> /usr/share/applications
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| /path/to/mflqta/pkg/mflqta* -> mflqta -> /usr/bin
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| /path/to/mflqta/pkg/mflqta.sh -> mflqta.sh -> /usr/bin
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| /path/to/Qt/lib/libQt5Widgets.so.5* -> libQt5Widgets.so.5 -> /usr/lib/i386-linux-gnu/qt5
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| /path/to/Qt/lib/libQt5Gui.so.5* -> libQt5Gui.so.5 -> /usr/lib/i386-linux-gnu/qt5
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| /path/to/Qt/lib/libQt5Core.so.5* -> libQt5Core.so.5 -> /usr/lib/i386-linux-gnu/qt5
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| /path/to/Qt/lib/libQt5DBus.so.5* -> libQt5DBus.so.5 -> /usr/lib/i386-linux-gnu/qt5
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| /path/to/Qt/lib/libicuuc.so.49* -> libicuuc.so.49 -> /usr/lib/i386-linux-gnu/qt5
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| /path/to/Qt/lib/libicui18n.so.49* -> libicui18n.so.49 -> /usr/lib/i386-linux-gnu/qt5
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| /path/to/Qt/lib/libicudata.so.49* -> libicudata.so.49 -> /usr/lib/i386-linux-gnu/qt5
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| /path/to/Qt/plugins/platforms/libqxcb.so* -> libqxcb.so -> /usr/lib/i386-linux-gnu/qt5/platforms
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| <</FILES>>
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| <[removed]>
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| <<PREINST>>
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| 0
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| <</PREINST>>
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| <<POSTINST>>
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| 0
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| <</POSTINST>>
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| <<PRERM>>
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| 0
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| <</PRERM>>
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| <<POSTRM>>
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| 0
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| <</POSTRM>>
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| <[removed]>
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| <<CHANGELOG>>
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| <<DEST>>DEFAULT<</DEST>>
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| <</CHANGELOG>>
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| <<COPYRIGHT>>
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| <</COPYRIGHT>>
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| <<MENU>>
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| 0
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| <</MENU>>
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| <<BUILD>>
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| 0
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| 1
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| 1
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| <</BUILD>>
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| </code>
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| After building the package with Debreate I got the file mflqta-1.0.0-1.i386.deb (named it manually: Debreate suggested the name mflqta_1.0.0_i386.deb), installed it and found my application in the Kubuntu’s menu Utilities.
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| ==Creating RPM package==
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| Well, I got the DEB package, but this one seems to be usable in Debian-based Linux distros only. Most of other relatively known distros use RPM packages. So my next goal was packaging the RPM. I thought this task will be easier, since I knew what libs must be distributes, but it was not truly so. First of all, I searched for some GUI app that does same as the Decreate, but with .rpm file as the output. I found few, but could not install it into my Kubuntu: they all were packaged as RPMs. So I had to go to another distro. I selected Fedora 18 with Xfce.
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| I installed several tools with GUI, like Easy RPM Builder, but did find how to fill the necessary fields. It seemed that packaging RPMs is quite different task than packaging DEB. I decided to stay with a non-GUI tool called rpmbuild. Thanks to some web resources, I learned the steps I have to complete while building my RPM package. So, first I had to run these two commands in the terminal:
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| <code>
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| $ mkdir -p ~/rpm/{RPMS,SRPMS,SPECS,SOURCES,BUILD}
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| $ echo '%_topdir /home/[user]/rpm' > ~/.rpmmacros
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| You would need to place [user] with your account name. Also, you are free defining any path instead of ‘rpm’ that I used in my case. Also note, that all manuals recommend building RPMs under non-root account.
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| </code>
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| Interestingly, the rpmbuild _requires 5 folders to have in its working folder (which is _~/rpm in my example). The folder SOURCES must contain the distributed files (in all example these files were in a tar.gz archive), the folder SPECS must contain the file .spec, which is similar to the Debreate’s .dbp file I used to create my DEB package. The folder BUILD is used to extract the files from the archive located in SOURCES. Folders SRPMS and RPMS are used to place the RPMs with sources and binaries accordingly. The rpmbuild also creates one more folder, BUILDROOT, and places there the files from_ BUILD_ according to the rules you specify in .spec, thus simulating the structure of the files and folders to be installed.
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| So first I had to transfer my distribution files into Fedora. In Kubuntu I created a folder mflqta-1.0.0-1 and copied all the files I used to create the Deb package into it (I did not used any subfolders). I found one peculiarity here: I had to copy all 4 files for libQt5{Gui, Core, DBus, Widgets}, since only the libs with .so.5.0.1 ending were the real files, others were only links to the corresponding libs. I have no idea why using .so.5 files worked fine for DEB package… So I got 16 libQt5* files in my archive. I archived the folder itself, not the files inside it. The archive name was mflqta-1.0.0-1.tar.gz.
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| Now as my mflqta-1.0.0-1.tar.gz was placed into the ~/rmp/SOURCES in Fedora, I created the file mflqta.spec and saved it into the ~/rpm/SPECS. I used gedit for editing – it knows how to highlight .spec file’s content, and this is very convenient (Fedora with Xfce misses gedit, I installed it separately). Here is my .spec file:
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| <code>
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| Name: mflqta
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| Version: 1.0.0
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| Release: 1
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| Summary: My first testing Qt app on Linux
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| Group: Applications/Productivity
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| License: GPL v3
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| Source0: %{name}-%{version}-%(release).tar.gz
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| BuildArch: i386
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| BuildRoot: %{_tmppath}/%{name}-root
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| Packager: lexasss <lexasss@domain.com>
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| Url: [Project Website]
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| Vendor: My Company Name
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| #Requires: libc6
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|
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| % description
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| Just testing
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| %prep
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| %setup -q -n %{name}-%{version}-%(release)
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| %build
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| %install
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| mkdir -p $RPM_BUILD_ROOT/usr/{bin,share}
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| mkdir -p $RPM_BUILD_ROOT/usr/bin/%{name}
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| mkdir -p $RPM_BUILD_ROOT/usr/bin/%{name}/platforms
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| mkdir -p $RPM_BUILD_ROOT/usr/share/{applications,pixmaps}
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| install %{name} $RPM_BUILD_ROOT/usr/bin/%{name}
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| install %{name}.sh $RPM_BUILD_ROOT/usr/bin/%{name}
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| install libQt5*.so.5 $RPM_BUILD_ROOT/usr/bin/%{name}
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| install libicu*.so.49 $RPM_BUILD_ROOT/usr/bin/%{name}
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| install libq* $RPM_BUILD_ROOT/usr/bin/%{name}/platforms
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| install %{name}.desktop $RPM_BUILD_ROOT/usr/share/applications
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| install %{name}.png $RPM_BUILD_ROOT/usr/share/pixmaps
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| %files
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| % defattr(-,root,root)
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| %{_bindir}/%{name}/%{name}
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| %{_bindir}/%{name}/%{name}.sh
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| %{_bindir}/%{name}/libicu*
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| %{_bindir}/%{name}/libQt5*
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| %{_bindir}/%{name}/platforms/libq*
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| %{_datadir}/applications/%{name}.desktop
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| %{_datadir}/pixmaps/%{name}.png
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| %clean
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| rm -rf $RPM_BUILD_ROOT
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| rm -rf $RPM_BUILD_DIR
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|
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| %changelog
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| * Sat Apr 13 2013 lexasss
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| - Initial build
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| </code>
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| Note that I used macros here where I could. If you wonder what is %{_datadir}, go to http://www.rpm.org/wiki/PackagerDocs/Macros#MacroAnaloguesofAutoconfVariables [rpm.org] .
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| Other note: on the very first installation trial the package manager in Fedors (Yum) was complaining about the unresolved dependency for libc6, so I commented the dependency line.
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| One may see that the beginning of the .spec file is quite similar to the .dbp file. Then it defines the source preparation step, described in the %prep section (I think, it only extract files from .tar.gz into the BUILD folder). The %build section is empty (no source in my package to build). In the %install section my files (already extracted into the ~/rmp/BUILD) are placed into the correct folders (note that you have to create these folders first) inside of the $RPM_BUILD_ROOT (= ~/rpm/BUILDROOT) folder. Some tutorials suggest that you better create the proper folder tree in the archive already, then the %install section would have only a single line:
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| cp -rvf $RPM_BUILD_DIR/${name}-${version}-%{release} $RPM_BUILD_ROOT
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| In the %files section I did quite similar work: specified what files goes to what locations during installation. Some tutorials recommend using just ./ , but I have not testing this. In the section %clear are the command to clear the working folders, ~/rpm/BUILD and ~/rpm/BUILDROOT. The %post<…> sections is optional and offers to run post-[un]installation scripts (similar to the analogue section in .dbp file). Finally, the %changelog section comes – every tutorial recommends filling it in the way that is shown here.
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| Now everything was ready to build the RPM. I opened the terminal in the ~/rpm/SPECS folder and typed
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| rpmbuild –bb mflqta.spec
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| I wished to have a .rpm file with my binaries only, that’s why the parameters is –bb. With the –ba parameter it also creates .src.rpm file and places it into the SRPMS folder. My mflqta-1.0.0-1.i386.rpm file has appeared in the RPMS folder.
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| I installed the package and found my app’s icon in the “Application menu > Accessories” menu in Fedora.
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