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== Creating Package HOWTO ==


This page describes in some detail the basic mechanics of how to create an RPM package specifically for Fedora (in particular, how to create a .spec file).  It also gives some practical warnings about what will or won't work, which may save you ''hours'' of time later.
== Introduction ==


This page is ''not'' the official package guidelines for Fedora (for that, see the [[Packaging:Guidelines|  Packaging Guidelines]] and [[Packaging:NamingGuidelines|  Package Naming Guidelines]]).  This page ''should'', however, be compatible with them.
This page describes in detail how to create an RPM package, and in particular, how to create a SPEC file. Unlike other RPM guides, this page explains the specifics for Fedora with links to Fedora-specific guidelines. Since it is maintained through the Fedora Wiki, it is likely to be more up-to-date than other guides. Despite the focus on Fedora, most of this document does apply to other RPM-based distributions. If you're impatient, you might start by looking at the shorter [[How to create a GNU Hello RPM package]].
This page doesn't go into depth on some issues, but it does point to other documents that do. Unlike many RPM Howto documents, this document explains the specifics for Fedora (with lots
of links to Fedora-specific guidelines) and it tends to be
more up-to-date (because it is maintained through the Fedora Wiki).
For example, it warns of the impacts of
[http://lists.autistici.org/message/20080709.212842.3f8877db.de.html changes that went into effect in RPM version 4.4.2.x].  In spite of its Fedora focus, most of this document ''does'' apply to other RPM-based distributions.
If you're impatient, you might start by looking at [[A Short RPM Tutorial]], which is a short summary tutorial on creating an RPM package (but doesn't have much of the detail this page does).


If you plan to create an RPM package for the Fedora repository, follow the process for
'''Currently Fedora Documentation has released a draft guide for packagers, see  [http://docs.fedoraproject.org/en-US/Fedora_Draft_Documentation/0.1/html/Packagers_Guide Packagers Guide]'''
[[Join the package collection maintainers|How to join the Fedora Package Collection Maintainers]],
including following the various Fedora guidance.


== Setting up your system and account ==
Please note that these are '''NOT''' the official package '''guidelines''' for Fedora, the [[Packaging:Committee| Packaging Committee]]  handles the rules and guidelines for packaging software in Fedora. The most important ones:


Before you create RPM packages on Fedora, you need to install some core
* [[Packaging:Guidelines| Packaging Guidelines]]
development tools and set up the account(s) you will use. As root (don't type the "#"!):
* [[Packaging:LicensingGuidelines |Licensing Guidelines]]
  # yum groupinstall "Development Tools"
* [[Packaging:NamingGuidelines| Package Naming Guidelines]]
  # yum install rpmdevtools
* [[Packaging:DistTag| Dist Tag Guidelines]]
* [[Packaging:ReviewGuidelines| Package Review Guidelines]]
* [[Packaging:ScriptletSnippets| Recipes for RPM post scripts]]
 
'''[[Packaging:Guidelines|Packaging Guidelines]] and [[Packaging:NamingGuidelines|Package Naming Guidelines]] are the main ones of Fedora Packaging. Having said that, this page should be compatible with them.
'''
 
If you plan to create an RPM package for the Fedora repository, follow the procedure depicted in [[Join the package collection maintainers]].


You can create a new "dummy user" specifically for
== Preparing your system ==
creating rpm packages.  That way, if something goes terribly wrong, the
program or build process can't trash your files, or
send your private files/keys to the world. At the very least,
you should ''never'' create your packages as user root.


You can create a new user named "makerpm" quickly by doing:
Before you create RPM packages on Fedora, you need to install some core development tools and set up the account(s) you will use:
  # /usr/sbin/useradd makerpm
# dnf install @development-tools
Then log in as that special dummy user (makerpm).
# dnf install fedora-packager
# dnf install rpmdevtools


Once you're logged in as the user who is creating packages,
You can create a dummy user specifically for creating RPM packages so that a build process gone wrong can't trash your files or send your private keys to the world.
create the directory structure in your home directory by executing (don't type the "$"):
  $ rpmdev-setuptree


The "rpmdev-setuptree" program will create a ~/rpmbuild directory. Underneath "rpmbuild" are a set of subdirectories (such SPECS and BUILD), which you will use for creating your packages.
{{admon/caution|You should NEVER create your packages as the <code>root</code> user. Building RPM's as root is dangerous, because the binary files are installed on the system before being packaged, thus you must always build as normal user so you won't accidentally pollute your system.}}
The "rpmdev-setuptree" also creates a ~/.rpmmacros file which will cause
rpm and rpmbuild to use them when appropriate.


[[Packaging:Guidelines#Timestamps|The packaging guidelines recommend using commands that preserve file timestamps]]; you can make this automatic if you use wget or curl to get the source files.
Create a new user named <code>makerpm</code>, add the user to the 'mock' group, set a password, and login as that user:
If you use wget to get source files, consider modifying adding to ~/.wgetrc the command "timestamping = on".  Similarly, if you use curl,curl consider adding to ~/.curlrc the text "-R".
# /usr/sbin/useradd makerpm
# usermod -a -G mock makerpm
# passwd makerpm


Once you've set up the user account, you won't normally need
Once you're logged in as the build/dummy user, create the required directory structure in your home directory by executing:
to do these steps again.
$ rpmdev-setuptree
 
The <code>rpmdev-setuptree</code> program will create the <code>~/rpmbuild</code> directory and a set of subdirectories (e.g. <code>SPECS</code> and <code>BUILD</code>), which you will use for creating your packages. The <code>~/.rpmmacros</code> file is also created, which can be used for setting various options.
 
[[Packaging:Guidelines#Timestamps|The packaging guidelines recommend preserving file timestamps]]; you can make this automatic if you use <code>wget</code> or <code>curl</code> to get the source files. If you use <code>wget</code> to get source files, add the text "<code>timestamping = on</code>" to <code>~/.wgetrc</code>.  If you use <code>curl</code>, add the text "<code>-R</code>" to <code>~/.curlrc</code>.
 
You won't normally need to do these steps again.


== The basics of building RPM packages ==
== The basics of building RPM packages ==


To create an RPM package, you will need to create a ".spec" text file that provides information about the software being packaged.  You then run the "rpmbuild" command on the spec file, which will go through a series of steps to produce your packages.
To create an RPM package, you will need to create a "<code>.spec</code>" text file that provides information about the software being packaged.


Normally you should place your original (pristine) sources, such as .tar.gz files from the original developers, into "~/rpmbuild/SOURCES".  You should place your .spec file in "~/rpmbuild/SPECS" and name it "''NAME''.spec" where ''NAME'' is the (base) name of the package.  To create all packages (both binary and source packages), you would change directory to "~/rpmbuild/SPECS" and run:
You then run the <code>rpmbuild</code> command on the <code>.spec</code> file, which will go through a series of steps to produce your packages.
rpmbuild -ba ''NAME''.spec


When invoked this way, rpmbuild will read the .spec file and attempt to go through the following stages (in this order; names beginning with % are predefined macros as described below, and the directories each stage normally reads and writes are listed):
Normally, you should place your original (pristine) sources, such as <code>.tar.gz</code> files from the original developers, into the <code>~/rpmbuild/SOURCES</code> directory.  Place your <code>.spec</code> file in the <code>~/rpmbuild/SPECS</code> directory and name it "''NAME''.spec", where ''NAME'' is the base name of the package.
{|
 
! Stage !! Reads !! Writes !! Action
Certain directories have certain purposes in the <code>rpmbuild</code> command, which can be substituted in the <code>.spec</code> file by the following (starting with <code>%</code>)  predefined macros:
{|border="1" cellspacing="0"
! Macro Name !! Name !! Usually !! Purpose
|-
|-
|%prep||%_sourcedir||%_builddir||This reads the sources and patches in the source directory %_sourcedir (usually ~/rpmbuild/SOURCES). It unpackages the sources to a subdirectory underneath the build directory %_builddir (usually ~/rpmbuild/BUILD/) and applies the patches.
|<code>%_specdir</code>||Specification directory||<code>~/rpmbuild/SPECS</code>||RPM specifications (<code>.spec</code>) files
|-
|-
|%build||%_builddir||%_builddir||This compiles the files underneath the build directory %_builddir (usually ~/rpmbuild/BUILD/). This is often implemented by running some variation of "./configure ; make".
|<code>%_sourcedir</code>||Source directory||<code>~/rpmbuild/SOURCES</code>||Pristine source package (e.g. tarballs) and patches
|-
|-
|%check||%_builddir||%_builddir||Check that the software works properly.  This is often implemented by running some variation of "make test".  Many packages don't implement this stage.
|<code>%_builddir</code>||Build directory||<code>~/rpmbuild/BUILD</code>||Source files are unpacked and compiled in a subdirectory underneath this.
|-
|-
|%install||%_builddir||%_buildrootdir||This reads the files underneath the build directory %_builddir (usually ~/rpmbuild/BUILD/) and writes to a directory underneath the build root directory %_buildrootdir (usually ~/rpmbuild/BUILDROOT).  The files that are written are the files that are supposed to be installed when the binary package is installed by an end-user.  Beware of the weird terminology: The ''build root directory'' is '''not''' the same as the ''build directory''.  This is often implemented by running "make install".
|<code>%_buildrootdir</code>||Build root directory||<code>~/rpmbuild/BUILDROOT</code>||Files are installed under here during the <code>%install</code> stage.
|-
|-
|bin||%_buildrootdir||%_rpmdir||This reads the files underneath the build root directory %_buildrootdir (usually ~/rpmbuild/BUILDROOT/) to create binary RPM packages underneath the RPM directory %_rpmdir (usually ~/rpmbuild/RPMS/).  Inside the RPM directory is a directory for each architecture, and a "noarch" directory for packages that apply to any architecture.  These RPM files are the packages for users to install.
|<code>%_rpmdir</code>||Binary RPM directory||<code>~/rpmbuild/RPMS</code>||Binary RPMs are created and stored under here.
|-
|-
|src||%_sourcedir||%_srcrpmdir||This creates a source RPM package (.src.rpm) inside the source RPM directory %_srcrpmdir (usually ~/rpmbuild/SRPMS).  These files are needed for reviewing and updating packages.
|<code>%_srcrpmdir</code>||Source RPM directory||<code>~/rpmbuild/SRPMS</code>||Source RPMs are created and stored here.
|}
|}


<!-- Note: The words "in" and "underneath" in the table above have different meanings.  Given file /a/b/c, c is "underneath" but not "in" a. -->


As you can tell, certain directories have certain purposes in rpmbuild. These are:
To create both binary and source packages, change directory to <code>~/rpmbuild/SPECS</code> and run:
{|
$ rpmbuild -ba ''NAME''.spec
! Macro Name !! Name !! Usually !! Purpose
 
When invoked this way, <code>rpmbuild</code> will read the <code>.spec</code> file and go through in order the stages listed below:
 
{|border="1" cellspacing="0"
! Stage !! Reads !! Writes !! Action
|-
|-
|%_specdir||Specification directory||~/rpmbuild/SPECS||RPM specifications (.spec) files
|<code>%prep</code>||<code>%_sourcedir</code>||<code>%_builddir</code>||This reads the sources and patches in the source directory <code>%_sourcedir</code>.  It unpackages the sources to a subdirectory underneath the build directory <code>%_builddir</code> and applies the patches.
|-
|-
|%_sourcedir||Source directory||~/rpmbuild/SOURCES||Pristine source package (e.g., tarballs) and patches
|<code>%build</code>||<code>%_builddir</code>||<code>%_builddir</code>||This compiles the files underneath the build directory <code>%_builddir</code>.  This is often implemented by running some variation of "<code>./configure && make</code>".
|-
|-
|%_builddir||Build directory||~/rpmbuild/BUILD||Source files are unpacked and compiled in a subdirectory underneath this.
|<code>%install</code>||<code>%_builddir</code>||<code>%_buildrootdir</code>||This reads the files underneath the build directory <code>%_builddir</code> and writes to a directory underneath the build root directory <code>%_buildrootdir</code>. The files that are written are the files that are supposed to be installed when the binary package is installed by an end-user.  Beware of the weird terminology: The ''build root directory'' is '''not''' the same as the ''build directory''.  This is often implemented by running "<code>make install</code>".
|-
|-
|%_buildrootdir||Build root directory||~/rpmbuild/BUILDROOT||Files are installed under here during the %install stage.
|<code>%check</code>||<code>%_builddir</code>||<code>%_builddir</code>||Check that the software works properly.  This is often implemented by running some variation of "<code>make test</code>".  Many packages don't implement this stage.
|-
|-
|%_rpmdir||Binary RPM directory||~/rpmbuild/RPMS||Binary RPMs are created stored under here.
|<code>bin</code>||<code>%_buildrootdir</code>||<code>%_rpmdir</code>||This reads the files underneath the build root directory <code>%_buildrootdir</code> to create binary RPM packages underneath the RPM directory <code>%_rpmdir</code>.  Inside the RPM directory is a directory for each architecture, and a "<code>noarch</code>" directory for packages that apply to any architecture.  These RPM files are the packages for users to install.
|-
|-
|%_srcrpmdir||Source RPM directory||~/rpmbuild/SRPMS||Source RPMs are created and stored here.
|<code>src</code>||<code>%_sourcedir</code>||<code>%_srcrpmdir</code>||This creates a source RPM package (<code>.src.rpm</code>) inside the source RPM directory <code>%_srcrpmdir</code>.  These files are needed for reviewing and updating packages.
|}
|}


Should a stage fail, you'll need to look at the output to see ''why'' it failed, and change the .spec file (or other input) as needed.
<!-- Note: The words "in" and "underneath" in the table above have different meanings.  Given file /a/b/c, c is "underneath" but not "in" a. -->
 
If a stage fails, look at the output to see ''why'' it failed and change the <code>.spec</code> file (or other input) as needed.


== Getting ready to package a particular program ==
== Getting ready to package a particular program ==


If there are special programs that are required to build or run the program you are packaging, install those
If there are special programs that are required to build or run the program you are packaging, install those other programs and write down what they are.
other programs and write down what they were (you'll need that information).


To package a program for the Fedora repository, you ''must'' package pristine (original) sources, along
To package a program for the Fedora repository, you must package pristine (original) sources, along with the patches and build instructions;
with the patches and build instructions;
it's '''not''' okay to start with pre-compiled code. Install the file with the original source (usually a <code>.tar.gz</code> file) in the
it's ''not'' okay to start with pre-compiled code.
<code>~/rpmbuild/SOURCES</code> directory (of the RPM building user account).
Install the file with the original source (usually a .tar.gz file) in the
"~/rpmbuild/SOURCES" directory (of the rpm building user account).


Read through the manual installation instructions for your program;
Read through the manual installation instructions for your program. It's often a good idea to do a "dry run" by manually building the program before attempting to do so via RPM. With a few exceptions, all binaries and libraries included in Fedora packages must be built from the source code that is included in the source package.
you're going to be automating this by editing a ".spec" file, so you have
to understand what you're supposed to do first.
It's probably best if you try a "dry run", going through its build and installation
procedure without trying to do it via RPM first
(that's especially true if you're not familiar with RPM).
With a few exceptions, all program binaries and program libraries included in Fedora packages must be built from the source code that is included in the source package.


=== Split up the program ===
=== Split up the program ===


Application source code is often released with the source code of other external libraries
Application source code is often released with the source code of other external libraries "bundled" into them. [[Packaging:No_Bundled_Libraries|Do not bundle external libraries with the main application into a single package]]. Instead, split them up into separate packages.
"bundled" into them.
[[Packaging:No_Bundled_Libraries|Do not bundle external libraries and the application that uses them into a single package]]. Instead, split them up into separate packages.


=== Licensing ===
=== Licensing ===


Only package software that's legal for you to package.
Only package software that is legal for you to package. See [[Packaging:Guidelines#Legal]], [[Licensing:Main]] and [[Packaging:LicensingGuidelines]]. In general, only package software that is released as open source software (OSS) using an approved OSS license (such as the GPL, LGPL, BSD-new, MIT/X, or Apache 2.0 licenses). Check to make sure that the software really is licensed this way (e.g. spot-check source code headers, README files etc.). If there are bundled libraries, make sure they are also OSS.
 
As noted in the [[Packaging/Guidelines#Legal|packaging guidelines' legal section]],
if you intend for it to be in the Fedora repository, be sure to follow the
[[Licensing:Main]] and [[Packaging:LicensingGuidelines]] guidelines.
In general, you need to only package software that is released as open source software (OSS)
using an approved OSS license (such as the GNU GPL, GNU LGPL, BSD-new, MIT/X, or Apache 2.0 licenses).
Check to make sure that the software really is licensed this way
(e.g., spot-check source code headers, README files, and so on).
If there are bundled libraries, make sure they are also OSS.


=== Reuse existing package information ===
=== Reuse existing package information ===


Try to reuse what you can.
Try to reuse what you can. Obviously, make sure you aren't packaging something that is already packaged. You can find a list of existing packages in Fedora Package Collection in the [https://admin.fedoraproject.org/pkgdb/ Fedora Package Database]. Also check the [[PackageMaintainers/InProgressReviewRequests|In Progress Review Requests]] and the [[PackageMaintainers/RetiredPackages|Retired Packages]] list. You can use [http://pkgs.fedoraproject.org/cgit Fedora Packages Git Repositories] directly to view SPEC files (and patches). You can download the SRPMS using DNF download Plugin:
Obviously, make sure you aren't packaging something that is already packaged;
  $ dnf download --source sourcepackage-name
you can find a list of existing packages in Fedora Package Collection in the [https://admin.fedoraproject.org/pkgdb/packages/ Fedora Package Database].
Also check the [[PackageMaintainers/InProgressReviewRequests | In Progress Review Requests]] (for packages that are currently being reviewed)
and the [[PackageMaintainers/RetiredPackages | Retired Packages]] list.
Failing that, see if someone has already started to package it for Fedora.
Google for "PROGRAMNAME Fedora rpm" or similar... maybe you can pick up where
they started.
You can use
http://cvs.fedoraproject.org/viewcvs/rpms/
directly to view .spec files (and patches) of any similar packages already in Fedora.
You can download the source RPMs using a program from the yum-utils package, by:
  $ yumdownloader --source sourcepackage-name


Alternatively, an existing source rpm can be retrieved manually by browsing to the [http://mirrors.fedoraproject.org/publiclist Fedora mirror]'s http or ftp page,
Alternatively, get the source manually from the http/ftp page of a [http://mirrors.fedoraproject.org/publiclist Fedora mirror] within the <code>releases/{{FedoraVersion}}/Everything/source/SRPMS</code> directory. Replace "<code>{{FedoraVersion}}</code>" with the Fedora release you want and download the <code>.src.rpm</code> package you want.
select releases/11/Everything/source/SRPMS
(replace "11" with the Fedora release you want),
and downloading the source RPMs you want (they end in .src.rpm).


Once you have the source RPM, running the following command installs the src.rpm
Once you have the SRPM, install it into <code>~/rpmbuild</code>:
  $ rpm -ivh sourcepackage-name*.src.rpm
  $ rpm -ivh sourcepackage-name*.src.rpm
which places the package's .spec file into ~/rpmbuild/SPECS and other source and patch files in ~/rpmbuild/SOURCES).


You can also unpack the .src.rpm in a directory using rpm2cpio:
You can also unpack the SRPM into a directory using <code>rpm2cpio</code>:
  $ mkdir PROGRAMNAME_src_rpm
  $ mkdir PROGRAMNAME_src_rpm
  $ cd PROGRAMNAME_src_rpm
  $ cd PROGRAMNAME_src_rpm
  $ rpm2cpio ../PROGRAMNAME-*.src.rpm | cpio -i
  $ rpm2cpio ../PROGRAMNAME-*.src.rpm | cpio -i


''Sometimes'' it's easiest to start with an existing package, and then clean it up for Fedora.
Sometimes it's easiest to start with an existing package and then clean it up for Fedora. [http://rpmfind.net/ RPM Find] and [http://pkgs.org PKGS.org] may help you find RPMs for non-Fedora systems. You can install SRPMS for other systems the same way as for Fedora. Failing that, you might look at the source package files (not binary <code>.deb</code>) for [http://packages.ubuntu.com/ Ubuntu] or [http://www.debian.org/distrib/packages Debian] (source package files are standard tarballs with a "<code>debian/</code>" subdirectory). If the [http://www.freebsd.org/ports/installing.html FreeBSD ports collection] has it, you could [ftp://ftp.freebsd.org/pub/FreeBSD/ports/ports/ports.tar.gz download the FreeBSD ports tarball] and see if their packaging information helps as a starting point. However, this is sometimes not helpful at all. Different distributions have different rules, and what they do may be quite inappropriate for Fedora.
[http://rpmfind.net/ RPM Find] may help you find rpm's for non-Fedora systems.
(You can install source RPMs for other systems the same way as for Fedora).
Failing that, you might look at the source package files (not the .deb binary package files)
for [http://packages.ubuntu.com/ Ubuntu] or
[http://www.debian.org/distrib/packages Debian]
(source package files are standard tarballs with a "debian/" subdirectory, possibly
associated with patch files).
If the [http://www.freebsd.org/ports/installing.html FreeBSD ports collection] has it,
you could
[ftp://ftp.freebsd.org/pub/FreeBSD/ports/ports/ports.tar.gz download the FreeBSD ports tarball]
and see if their packaging information helps as a starting point.
'''However''', this is sometimes not helpful at all.
Different distributions have different rules, and what they do may be quite
inappropriate for Fedora.
 
== Creating a spec file ==


You now need to create a ".spec" file in the "~/rpmbuild/SPECS" directory.
== Creating a SPEC file ==
You should name it after the program name, e.g., "program.spec".  Use the archive name or the name advocated by the software author where you can, but be sure to follow the
[[Packaging/NamingGuidelines| Package Naming Guidelines]].


=== Creating a blank spec file ===
You now need to create a SPEC file in the <code>~/rpmbuild/SPECS</code> directory. You should name it after the program name (e.g. "<code>program.spec</code>").  Use the archive name or the name advocated by the software author where you can, but be sure to follow the [[Packaging/NamingGuidelines|Package Naming Guidelines]].


When you're creating a spec file for the first time, you can create its initial version using emacs or vim (as of 7.1.270-1),
=== SPEC templates and examples ===
they will automatically create a template for you.  E.G.:
==== Templates ====
When you're creating a SPEC file for the first time, vim or emacs will automatically create a template for you:
   $ cd ~/rpmbuild/SPECS
   $ cd ~/rpmbuild/SPECS
   $ vi program.spec
   $ vim program.spec


Here's an example of what that template will look like:
Here's an example of what that template will look like ('''Note:''' the provided template may not necessarily comply with Fedora Packaging Guidelines):
  Name:
  Name:
  Version:
  Version:
Line 198: Line 151:
  URL:
  URL:
  Source0:
  Source0:
BuildRoot: %{_tmppath}/%{name}-%{version}-%{release}-root-%(%{__id_u} -n)
   
   
  BuildRequires:
  BuildRequires:
Line 206: Line 158:
   
   
  %prep
  %prep
  %setup -q
  %autosetup
   
   
  %build
  %build
Line 213: Line 165:
   
   
  %install
  %install
  rm -rf %{buildroot}
  %make_install
make install DESTDIR=%{buildroot}
%clean
rm -rf %{buildroot}
   
   
  %files
  %files
%defattr(-,root,root,-)
  %doc
  %doc
   
   
Line 226: Line 173:




You may have $RPM_BUILD_ROOT instead of %{buildroot}; just be consistent.
You can use <code>$RPM_BUILD_ROOT</code> instead of <code>%{buildroot}</code>. Both are acceptable, but just be consistent.


You may also use the <code>rpmdev-newspec</code> command to create a spec file for you.  <code>rpmdev-newspec NAME-OF-NEW-PACKAGE</code> can create an initial spec file for a new package, tailored to various types of packages.  It will guess what kind of template to use based on the package name, or you can specify a particular template; see <code>/etc/rpmdevtools/spectemplate-*.spec</code> for available templates.  See <code>rpmdev-newspec --help</code> for more information. For example, to create a new spec file for a python module:
You may also use the <code>rpmdev-newspec</code> command to create a SPEC file for you.  <code>rpmdev-newspec NAME-OF-NEW-PACKAGE</code> can create an initial SPEC file for a new package, tailored to various types of packages.  It will guess what kind of template to use based on the package name, or you can specify a particular template. See <code>/etc/rpmdevtools/spectemplate-*.spec</code> for available templates, and see <code>rpmdev-newspec --help</code> for more information. For example, to create a new SPEC file for a python module:


  cd ~/rpmbuild/SPECS
  cd ~/rpmbuild/SPECS
Line 234: Line 181:
  vi python-antigravity.spec
  vi python-antigravity.spec


=== An example: eject ===
==== Examples ====
===== eject =====
Here's a simple example showing a Fedora 16 SPEC file for the <code>eject</code> program:


Here's a simple example, a Fedora 9 package for the "eject" program:
<pre>
Summary:            A program that ejects removable media using software control
Name:              eject
Version:            2.1.5
Release:            21%{?dist}
License:            GPLv2+
Group:              System Environment/Base
Source:            %{name}-%{version}.tar.gz
Patch1:            eject-2.1.1-verbose.patch
Patch2:            eject-timeout.patch
Patch3:            eject-2.1.5-opendevice.patch
Patch4:            eject-2.1.5-spaces.patch
Patch5:            eject-2.1.5-lock.patch
Patch6:            eject-2.1.5-umount.patch
URL:                http://www.pobox.com/~tranter
ExcludeArch:        s390 s390x
BuildRequires:      gettext
BuildRequires:     libtool


Summary: A program that ejects removable media using software control
%description
Name: eject
The eject program allows the user to eject removable media (typically
Version: 2.1.5
CD-ROMs, floppy disks or Iomega Jaz or Zip disks) using software
Release: 11%{dist}
control. Eject can also control some multi-disk CD changers and even
License: GPL
some devices' auto-eject features.
Group: System Environment/Base
 
Source: http://metalab.unc.edu/pub/Linux/utils/disk-management/%{name}-%{version}.tar.gz
Install eject if you'd like to eject removable media using software
Source1: eject.pam
control.
Patch1: eject-2.1.1-verbose.patch
 
Patch2: eject-timeout.patch
%prep
Patch3: eject-2.1.5-opendevice.patch
%autosetup -n %{name}
Patch4: eject-2.1.5-spaces.patch
 
Patch5: eject-2.1.5-lock.patch
%build
Patch6: eject-2.1.5-umount.patch
%configure
BuildRoot: %{_tmppath}/%{name}-%{version}-%{release}-root
make %{?_smp_mflags}
URL: http://www.pobox.com/~tranter
 
ExcludeArch: s390 s390x
%install
BuildRequires: gettext
%make_install
BuildRequires: automake
 
BuildRequires: autoconf
install -m 755 -d %{buildroot}/%{_sbindir}
BuildRequires: libtool
ln -s ../bin/eject %{buildroot}/%{_sbindir}
 
%description
%find_lang %{name}
The eject program allows the user to eject removable media (typically
 
CD-ROMs, floppy disks or Iomega Jaz or Zip disks) using software
%files -f %{name}.lang
control. Eject can also control some multi-disk CD changers and even
%doc README TODO COPYING ChangeLog
some devices' auto-eject features.
%{_bindir}/*
%{_sbindir}/*
Install eject if you'd like to eject removable media using software
%{_mandir}/man1/*
control.
 
%changelog
%prep
* Tue Feb 08 2011 Fedora Release Engineering <rel-eng@lists.fedoraproject.org> - 2.1.5-21
%setup -q -n %{name}
- Rebuilt for https://fedoraproject.org/wiki/Fedora_15_Mass_Rebuild
%patch1 -p1 -b .versbose
 
%patch2 -p1 -b .timeout
* Fri Jul 02 2010 Kamil Dudka <kdudka@redhat.com> 2.1.5-20
%patch3 -p0 -b .opendevice
- handle multi-partition devices with spaces in mount points properly (#608502)
%patch4 -p0 -b .spaces
</pre>
%patch5 -p0 -b .lock
 
%patch6 -p1 -b .umount
===== =====
{{Anchor|Spec_file_pieces_explained}}
%build
%configure
make
%install
rm -rf %{buildroot}
make DESTDIR=%{buildroot} install
# pam stuff
install -m 755 -d %{buildroot}/%{_sysconfdir}/pam.d
install -m 644 %{SOURCE1} %{buildroot}/%{_sysconfdir}/pam.d/%{name}
install -m 755 -d %{buildroot}/%{_sysconfdir}/security/console.apps/
echo "FALLBACK=true" > %{buildroot}/%{_sysconfdir}/security/console.apps/%{name}
install -m 755 -d %{buildroot}/%{_sbindir}
pushd %{buildroot}/%{_bindir}
mv eject ../sbin
ln -s consolehelper eject
popd
%find_lang %{name}
%clean
rm -rf %{buildroot}
%files -f %{name}.lang
%defattr(-,root,root)
%doc README TODO COPYING ChangeLog
%attr(644,root,root) %{_sysconfdir}/security/console.apps/*
%attr(644,root,root) %{_sysconfdir}/pam.d/*
%{_bindir}/*
%{_sbindir}/*
%{_mandir}/man1/*
%changelog
* Wed Apr 02 2008 Zdenek Prikryl &lt;zprikryl at, redhat.com&gt; 2.1.5-11
- Added check if device is hotpluggable
- Resolves #438610


You can also use the "BuildRoot:" entry from the template instead. Although both are acceptable, the one from the template is the preferred one.
== SPEC file overview ==


=== Spec file pieces explained ===
Other useful guides:
* [http://docs.fedoraproject.org/en-US/Fedora_Draft_Documentation/0.1/html/RPM_Guide/ch-creating-rpms.html RPM Guide] describes how to write a SPEC file.
The [http://docs.fedoraproject.org/drafts/rpm-guide-en/ch-creating-rpms.html RPM Guide, section on creating RPMs],
* The IBM series "Packaging software with RPM" [http://www.ibm.com/developerworks/library/l-rpm1/ Part 1], [http://www.ibm.com/developerworks/library/l-rpm2/ Part 2], and [http://www.ibm.com/developerworks/library/l-rpm3/ Part 3].
describes the details of how to fill in a spec file.
* [http://rpm.org/max-rpm-snapshot/ Maximum RPM] has the most complete information, but is dated.
The developerWorks series "Packaging software with RPM" [http://www.ibm.com/developerworks/library/l-rpm1/ Part 1], [http://www.ibm.com/developerworks/library/l-rpm2/ Part 2], and [http://www.ibm.com/developerworks/library/l-rpm3.html Part 3] is also handy.
[http://rpm.org/max-rpm-snapshot/ Maximum RPM] has the most complete information, but is dated.


You will need to follow the Fedora guidelines, such as the
You will need to follow the Fedora guidelines: [[Packaging/NamingGuidelines|Package Naming Guidelines]], [[Packaging/Guidelines|Packaging guidelines]], and [[Packaging/ReviewGuidelines|Package review guidelines]].
[[Packaging/NamingGuidelines| Package Naming Guidelines]],
[[Packaging/Guidelines| Packaging Guidelines]], and
[[Packaging/ReviewGuidelines|Package review guidelines]].


You can insert comments with a leading "#" character, but
Insert comments with a leading "<code>#</code>" character, but avoid macros (beginning with <code>%</code>) that are potentially multiline (as they are expanded first). If commenting out a line, double the percent signs (<code>%%</code>). Also avoid inline comments on the same line as a script command.
don't insert potentially-multiline-macros (words beginning with "%") in a comment
(macros are expanded first); if you're commenting out a line, double the percent signs ("%%"). Also, don't use inline comments ("#") on the same line after
a script command.


Here are the major fields/areas that you will need to fill in:
The major tags are listed below. Note that the macros <code>%{name}</code>, <code>%{version}</code> and <code>%{release}</code> can be used to refer to the Name, Version and Release tags respectively. When you change the tag, the macros automatically update to use the new value.
* Name: The (base) name of the package.  It must follow the [[Packaging/NamingGuidelines| Package Naming Guidelines]].  In many cases, this will be in all lower case.  Elsewhere in the spec file, you can refer to the name using the macro %{name} - that way, if the name changes, the new name will be used by those other locations. This name should match the spec file name.
* '''Name''': The (base) name of the package, which should match the SPEC file name. It must follow the [[Packaging/NamingGuidelines|Package Naming Guidelines]] and generally be lowercase.
* Version: The upstream version number. See [http://fedoraproject.org/wiki/Packaging/NamingGuidelines#Package_Version Packaging/Naming guidelines - package version] for more information. If the version is non-numeric (contains tags that are not numbers or digits), you may need to include the additional non-numeric characters in the release field. If upstream uses full dates to distinguish versions, consider using version numbers of the form yy.mm[dd] (so a 2008-05-01 release becomes 8.05). Elsewhere in the spec file, refer to this value as %{version}.
* '''Version''': The upstream version number. See [[Packaging/NamingGuidelines#Version_Tag|Version tag section]] of the packaging guidelines. If the version contains tags that are non-numeric (contains tags that are not numbers), you may need to include the additional non-numeric characters in the Release tag. If upstream uses full dates to distinguish versions, consider using version numbers of the form <code>yy.mm[dd]</code> (e.g. <code>2008-05-01</code> becomes <code>8.05</code>).
* Release: The initial value of the release should normally be "1%{?dist}". Then, increment the number every time you release a new package for the same version of software. If a new version of the software being packaged is released, the version number should be changed to reflect the new software version, and the release number should be reset to 1. See [http://fedoraproject.org/wiki/Packaging/NamingGuidelines#Package_Release Name Guidelines - package release] for more. [[Packaging/DistTag]] describes the "dist" tag, which isn't required but can be useful. Use %{release} to reuse this value.
* '''Release''': The initial value should normally be <code>1%{?dist}</code>. Increment the number every time you release a new package for the same version of software. When a new upstream version is released, change the Version tag to match and reset the Release number to <code>1</code>. See [[Packaging/NamingGuidelines#Release_Tag|Release tag section]] of the packaging guidelines. The optional [[Packaging/DistTag|Dist tag]] might be useful.
* Summary: A brief, one-line summary of the package. Use American English, and ''do not'' end in a period.
* '''Summary''': A brief, one-line summary of the package. Use American English. '''Do NOT end in a period.'''
* Group: This needs to be a pre-existing group, like "Applications/Engineering"; run "less /usr/share/doc/rpm-*/GROUPS" to see the complete list. If you create a sub-package "...-doc" with documentation, use the group "Documentation".
* '''Group''': This needs to be a pre-existing group, like "Applications/Engineering"; run "<code>less /usr/share/doc/rpm/GROUPS</code>" to see the complete list. Use the group "Documentation" for any sub-packages (e.g. <code>kernel-doc</code>) containing documentation. '''''Note: This tag is deprecated since Fedora 17. See [[http://docs.fedoraproject.org/en-US/Fedora_Draft_Documentation/0.1/html/Packagers_Guide/chap-Packagers_Guide-Spec_File_Reference-Preamble.html|Spec File Reference Preamble]] '''''
* License: Its license; for software, this must be an open source software license. Use a standard abbreviation, e.g., "GPLv2+". Try to be specific, e.g., use "GPLv2+" (GPL version 2 or greater) instead of just "GPL" or "GPLv2" where it's true.  See [[Licensing]] and the [[Packaging/LicensingGuidelines| Licensing Guidelines]] for more information. You can list multiple licenses by combining them with "and" and "or", e.g., "GPLv2 and BSD".  Call this tag "License"; don't use the older, inaccurately named tag "Copyright".
* '''License''': The license, which must be an open source software license. Do ''not'' use the old Copyright tag. Use a standard abbreviation (e.g. "<code>GPLv2+</code>") and be specific (e.g. use "<code>GPLv2+</code>" for GPL version 2 or greater instead of just "<code>GPL</code>" or "<code>GPLv2</code>" where it's true). See [[Licensing]] and the [[Packaging/LicensingGuidelines|Licensing Guidelines]]. You can list multiple licenses by combining them with "<code>and</code>" and "<code>or</code>" (e.g. "<code>GPLv2 and BSD</code>").
* URL: The URL for more information about the program, e.g., the project website.  Note: This is NOT where the original source code came from, see "Source" (next!).
* '''URL''': The full URL for more information about the program (e.g. the project website). '''''Note: This is not where the original source code came from which is meant for the Source0 tag below'''''.
* Source0: The URL for the compressed archive containing (original) pristine source code, as upstream released it. "Source" is synonymous with "Source0". If you give a full URL (and you should), its basename will be used when looking in the SOURCES directory. If possible, embed %{name} and %{version}, so that changes to either will go to the right place. '''Warning:''' ''Source0:'' and ''URL:'' are different - normally they are both URLs, but the "URL:" entry points to the project website, while the "Source0:" entry points to the actual file containing the source code (and is typically a .tar.gz file).  As noted in the guidelines, "When downloading sources, patches etc, consider using a client that preserves the upstream timestamps. For example wget -N or curl -R. To make the change global for wget, add this to your ~/.wgetrc: timestamping = on, and for curl, add to your ~/.curlrc: -R." If there is more than one source, name them Source1, Source2, and so on. If you're adding whole new files in addition to the pristine sources, you can list each of them as sources as well, but list them ''after'' the pristine sources. A copy of each of these sources will be included in any source package you create (unless you specially direct otherwise). See [[Packaging/SourceURL]] for more information on special cases (using revision control, when upstream uses prohibited code, etc.).
* '''Source0''': The full URL for the compressed archive containing the (original) pristine source code, as upstream released it. "<code>Source</code>" is synonymous with "<code>Source0</code>".  If you give a full URL (and you should), its basename will be used when looking in the <code>SOURCES</code> directory. If possible, embed <code>%{name}</code> and <code>%{version}</code>, so that changes to either will go to the right place. [[Packaging:Guidelines#Timestamps|Preserve timestamps]] when downloading source files. If there is more than one source, name them <code>Source1</code>, <code>Source2</code> and so on. If you're adding whole new files in addition to the pristine sources, list them as sources ''after'' the pristine sources. A copy of each of these sources will be included in any SRPM you create, unless you specifically direct otherwiseSee [[Packaging/SourceURL|Source URL]] for more information on special cases (e.g. revision control).
* Patch0: The name of the first patch that you will apply to the source code.  If you need to patch the files after they've been uncompressed, you should edit the files, save their differences as a "patch" file in your ~/rpmbuild/SOURCES directory. Patches should make only one logical change, so it's quite possible to have multiple patch files.
* '''Patch0''': The name of the first patch to apply to the source code.  If you need to patch the files after they've been uncompressed, you should edit the files and save their differences as a "patch" file in your <code>~/rpmbuild/SOURCES</code> directory. Patches should make only one logical change each, so it's quite possible to have multiple patch files.
* BuildArch: If you're packaging files that are architecture-independent (e.g., shell scripts, data files, etc.), then add "BuildArch: noarch". The architecture for the binary RPM will then be "noarch".
* '''BuildArch''': If you're packaging files that are architecture-independent (e.g. shell scripts, data files), then add "<code>BuildArch: noarch</code>". The architecture for the binary RPM will then be "<code>noarch</code>".
* BuildRoot: This is where files will be "installed" during the "%install" process (which happens after the %build compilation process). Normally you should just leave this line alone; under the usual Fedora setup, this will be a macro that will create a new special directory under /var/tmp. Newer versions of RPM will ignore this value, and instead place the build root in "%{_topdir}/BUILDROOT/".
* '''BuildRoot''': This is where files will be "installed" during the %install process (after the %build process). This is now redundant in Fedora and is only needed for EPEL5. By default, the build root is placed in "<code>%{_topdir}/BUILDROOT/</code>".
* BuildRequires: A comma-separated list of packages required for building (compiling) the program.  These are ''not'' automatically determined, so you need to include ''everything'' needed to build the program.  There are a few packages that are so common in builds that you don't need to mention them, such as "gcc"; see the [[Packaging/Guidelines| Packaging Guidelines]] for the complete list of the packages you may omit.  You can also specify minimum versions, if necessary, like this: "ocaml >= 3.08". You can have more than one line of BuildRequires (in which case they are all required for building). If you need file /EGGS, you can get its package by running "rpm -qf /EGGS"; if EGGS is a program, you determine its package quickly by running "rpm -qf `which EGGS`". Try to specify only the minimal set of packages necessary to properly build the package, since each one will slow down a "mock"-based build (e.g., try to use sed instead of perl if you don't really need perl's abilities)Watch out: Some applications permanently disable functions if their package isn't detected during the build; in those cases you may need to include those additional packages. If you have trouble figuring out this list, the "auto-br-rpmbuild" command (from the auto-buildrequires package) may be helpful.
* '''BuildRequires''': A comma-separated list of packages required for building (compiling) the program. This field can be (and is commonly) repeated on multiple lines. These dependencies are ''not'' automatically determined, so you need to include ''everything'' needed to build the program. [[HOWTOFindMissingBuildRequires#Exceptions|Some common packages can be omitted]], such as <code>gcc</code>. You can specify a minimum version if necessary (e.g. "<code>ocaml >= 3.08</code>"). If you need the file <code>/EGGS</code>, determine the package that owns it by running "<code>rpm -qf /EGGS</code>". If you need the program <code>EGGS</code>, determine the package that owns it by running "<code>rpm -qf `which EGGS`</code>". Keep dependencies to a minimum (e.g. use <code>sed</code> instead of <code>perl</code> if you don't really need perl's abilities), but beware that some applications permanently disable functions if the associated dependency is not present; in those cases you may need to include the additional packages. The {{package|auto-buildrequires}} package may be helpful.
* Requires: A comma-separate list of packages that are required when the program is installed.   Note that the list of packages for ''Requires'' (what's required when installing/running) and ''BuildRequires'' (what's required to build the binary RPM) are independent; a package may be in one list but not the other, or it could be in bothThe dependencies of binary packages are in many cases automatically detected by rpmbuild, so it is often the case that you don't need to specify the ''Requires'' tag at all. But if you want to highlight some specific packages as being required, or require a package that rpm can't detect should be required, then add it here.
* '''Requires''': A comma-separate list of packages that are required when the program is installed. Note that the BuildRequires tag lists what is required to build the binary RPM, while the Requires tag lists what is required when installing/running the program; a package may be in one list or in both. In many cases, <code>rpmbuild</code> automatically detects dependencies so the Requires tag is not always necessary. However, you may wish to highlight some specific packages as being required, or they may not be automatically detected.
* %description - A longer, multi-line description of the program.  Use American English. All lines must be 80 characters or less. "Blank lines are assumed to separate paragraphs. Some graphical user interface installation programs will reformat paragraphs..(lines that) start with whitespace, such as a space or tab, will be treated as preformatted text and displayed as is, normally with a fixed-width font." (per the [http://docs.fedoraproject.org/drafts/rpm-guide-en/ch09s03.html RPM Guide]).
* '''%description''': A longer, multi-line description of the programUse American English. All lines must be 80 characters or less. Blank lines indicate a new paragraph. Some graphical user interface installation programs will reformat paragraphs; lines that start with whitespace will be treated as preformatted text and displayed as is, normally with a fixed-width font. See [http://docs.fedoraproject.org/drafts/rpm-guide-en/ch09s03.html RPM Guide].
* %prep - Script commands to "prepare" the program, that is, to uncompress it so that it will be ready for building (compiling).  Typically this is just "%setup -q" or some variation of it; a common variation is "%setup -q -n NAME" if the source file unpacks into NAME. See the "%prep" section below for more.
* '''%prep''': Script commands to "prepare" the program (e.g. to uncompress it) so that it will be ready for buildingTypically this is just "<code>%autosetup</code>"; a common variation is "<code>%autosetup -n NAME</code>" if the source file unpacks into <code>NAME</code>. See the %prep section below for more.
* %build - Script commands to "build" the program, that is, to compile it and get it ready for installing.  The program should come with instructions on how to do this.  See the "%build" section below for more.
* '''%build''': Script commands to "build" the program (e.g. to compile it) and get it ready for installing. The program should come with instructions on how to do thisSee the %build section below for more.
* %check - Script commands to self-test the program. This is run after %build and before %install, so you should place it there if you have this section.  Often it simply contains "make test" or "make check".  This is separated from %build so that people can skip the self-test if they desire.  This isn't documented in many places.
* '''%install''': Script commands to "install" the programThe commands should copy the files from the <code>BUILD</code> directory <code>%{_builddir}</code> into the buildroot directory, <code>%{buildroot}</code>. See the %install section below for more.
* %install - Script commands to "install" the program.  The commands should copy the files from the "build directory" %{_builddir} (which would be under ~/rpmbuild/BUILD) into the buildroot directory, %{buildroot} (which would normally be under /var/tmp). See the "%install" section below for more.
* '''%check''': Script commands to "test" the program. This is run after the %install procedure, so place it there if you have this section. Often it simply contains "<code>make test</code>" or "<code>make check</code>". This is separated from %build so that people can skip the self-test if they desire.
* %clean - instructions to clean out the build root. Typically:
* '''%clean''': Instructions to clean out the build root. Note that this section is now redundant in Fedora and is only necessary for EPEL. Typically this contains only:
  rm -rf %{buildroot}
  rm -rf %{buildroot}
* %files - the list of files that will be installed.   See the "%files" section below for more.
* '''%files''': The list of files that will be installed. See the %files section below for more.
* %changelog - Changes in the package.  Use the format example above.
* '''%changelog''': Changes in the package.  Use the format example above. '''Do NOT put software's changelog at here.This changelog is for RPM itself.'''
* ExcludeArch: If the package does not successfully compile, build or work on an architecture, then those architectures should be listed in the spec in an ExcludeArch tag.
* '''ExcludeArch''': If the package does not successfully compile, build or work on a particular architecture, list those architectures under this tag.
* You can add sections so that code will run when packages are installed or removed on the real system (as opposed to just running the %install script, which only does a pseudo-install to the build root).  These are called "scriptlets", and they are usually used to update the running system with information from the package.  See the "Scriptlets" section below for more.
* You can add sections so that code will run when packages are installed or removed on the real system (as opposed to just running the %install script, which only does a pseudo-install to the build root).  These are called "scriptlets", and they are usually used to update the running system with information from the package.  See the "Scriptlets" section below for more.


Don't use the tags "Packager" or "Vendor".  Don't use "Copyright" - use "License" instead.
RPM also supports the creation of several packages (called [[How_to_create_an_RPM_package#Subpackages|subpackages]]) from a single SPEC file, such as <code>name-libs</code> and <code>name-devel</code> packages.
Don't create a "relocatable" package - they don't add value in Fedora yet they make things more complicated.
 
{{admon/caution|Do '''NOT''' use these tags|
* Packager
* Vendor
* Copyright}}
 
Do '''not''' create a "relocatable" package; they don't add value in Fedora and make things more complicated.


RPM supports subpackages, that is, a single spec file can generate many
== SPEC file sections explained ==
binary packages.  For example, if the documentation is very large, you might generate
a separate "-doc" subpackage.
See below for more.


=== %prep section ===
=== %prep section ===
The "%prep" section describes how to unpack the compressed packages so that they can be built.
Typically, this is a set of "%setup" and/or %patch commands, which reference the Source0:, Source1:, etc. lines above.
See the [http://rpm.org/max-rpm-snapshot/s1-rpm-inside-macros.html Maximum RPM section on %setup and %patch] for more details.


'''Warning:''' In spec files, don't use in-line comments (a "#" comment on the same line after a command), and don't put macros (words beginning with "%") in a comment unless you quote the "%" as "%%". Macros can cause failures if they are in a comment, because they are always expanded (even when in a comment) and they can expand to multiple lines. This is true for %prep, %build, and so on.
The %prep section describes how to unpack the compressed packages so that they can be built. Typically, this includes the "<code>%autosetup</code>" command.  Alternatively, you can use "<code>%setup</code>" and "<code>%patch</code>" commands with reference to the Source0 (and Source1 etc.) lines. See the [http://rpm.org/max-rpm-snapshot/s1-rpm-inside-macros.html Maximum RPM section on %setup and %patch] for more details.


The new RPM 4.4.2.x series adds two new macros, %{patches} and %{sources}, so you can do things like:
The %{patches} and %{sources} macros are available since RPM 4.4.2 and are useful if you have a large list of patches or sources and %autosetup is not what you want, then you can do:
  for p in %{patches}; do
  for p in %{patches}; do
...
    ...
  done
  done
These new macros can very useful if you have a large list of patches or sources.
However, keep in mind that using these will make your spec
incompatible with the rpm used in Fedora 9 and earlier, RHEL, and
many other RPM-based distros.


==== %prep section: %setup command ====
However, keep in mind that using these will make your SPEC incompatible with RPMS used in RHEL and other RPM-based dirstributions.
 
==== %prep section: %autosetup command ====
 
The "<code>%autosetup</code>" command unpacks a source package. Switches include:
* '''<code>-n</code> ''name''''' : If the Source tarball unpacks into a directory whose name is not the RPM name, this switch can be used to specify the correct directory name. For example, if the tarball unpacks into the directory FOO, use "<code>%autosetup -n FOO</code>".
* '''<code>-c</code> ''name''''' : If the Source tarball unpacks into multiple directories instead of a single directory, this switch can be used to create a directory named ''name'' and then unpack into it.


The "%setup" command unpacks a source package, and takes several switches.  Normally you should use "-q" (quiet) to prevent setup from babbling about every file it unpacks.  Here are a few switches besides -q:
If you use "<code>%setup</code>" command instead, then ''<code>-q</code>''' is commonly used to suppress unecessary output.  
* -n ''name'': If the name of the rpm is something other than what the Source unpacks to, use this switch to state the ''name'' it unpacks to.  E.G., if the tarball unpacks into a directory MYNAME, use %setup -q -n MYNAME
* -c ''name'': If the tarball doesn't unpack into a single directory, this creates a directory named ''name'' and then unpacks into it.  Useful if you have one of those annoying tarballs that doesn't have a single common subdirectory embedded in it.


There are
There are [http://rpm.org/max-rpm-snapshot/s1-rpm-inside-macros.html more %setup options if you are unpacking multiple files], which is primarily useful if you
[http://rpm.org/max-rpm-snapshot/s1-rpm-inside-macros.html more %spec options if you are unpacking multiple files], which is primarily useful if you
are creating subpackages (see below).  The key ones are:
are creating subpackages (see below).  The key ones are:


{|
{|
|-
|-
| -a number || Only unpack the source directive of the given number, such as –a 0 for source0:, after changing to the directory.
| <code>-a number</code> || Only unpack the Source directive of the given number after changing directory (e.g. "<code>–a 0</code>" for Source0).
|-
|-
| -b number ||  Only unpack the source directive of the given number, such as –b 0 for source0:, before changing to the directory.
| <code>-b number</code> ||  Only unpack the Source directive of the given number before changing directory (e.g. "<code>–b 0</code>" for Source0).
|-
|-
| -D || Do not delete the directory before unpacking.
| <code>-D</code> || Do not delete the directory before unpacking.
|-
|-
| -T || Disable the automatic unpacking of the archives.
| <code>-T</code> || Disable the automatic unpacking of the archives.
|}
|}


==== %prep section: %patch commands ====
==== %prep section: %patch commands ====


The "%patch0" command applies patch 0 (similar for 1, 2, etc.). Patches are the normal way to change to the source code if necessary to package it. The normal "-pNUMBER" option applies, which simply passes that argument on to ''patch''.
If you have used "<code>%autosetup</code>" command, the following manual patch management is not necessary.  If you have complex requirements or need compatibility with EPEL, you may still need this. The "<code>%patch0</code>" command applies Patch0 (and %patch1 applies Patch1 etc.). Patches are the normal method of making necessary changes to the source code for packaging. The usual "<code>-pNUMBER</code>" option applies, which passes that argument onto the program <code>patch</code>.


Patch file names often look like "telnet-0.17-env.patch", that is, ''%{name}''-''%{version}''-''patch_purpose''.patch (some people omit -''%{version}''). Patch files are typically the result of a "diff -u"; if you do this from the subdirectory of ~/rpmbuild/BUILD, you won't have to specify a -p level later.  You can use all the normal ways of creating a patch file.
Patch file names often look like "<code>telnet-0.17-env.patch</code>", which is the format <code>%{name} - %{version} - REASON.patch</code>" (though sometimes version is omitted). Patch files are typically the result of "<code>diff -u</code>"; if you do this from the subdirectory of <code>~/rpmbuild/BUILD</code> then you won't have to specify a <code>-p</code> level later.


If you're creating a patch file a single file FILENAME, a common way is to copy it to FILENAME.orig, modify it, and then save the results of "diff -u FILENAME.orig FILENAME".  If you change directory to "~/rpmbuild/BUILD/''NAME''", you could create a patch file to change a single file by doing:
This is a typical procedure for creating a patch for a single file:
  cp X/Y.Z X/Y.Z.orig
  cp foo/bar foo/bar.orig
  vim X/Y.Z
  vim foo/bar
  diff -u X/Y.Z.orig X/Y.Z > ~/rpmbuild/SOURCES/PKGNAME.REASON.patch
  diff -u foo/bar.orig foo/bar > ~/rpmbuild/SOURCES/PKGNAME.REASON.patch


If you're going to edit many files, one easy method is to copy the whole subdirectory underneath BUILD, and then do subdirectory diffs; once you change directory to "~rpmbuild/BUILD/''NAME''", you can:
If editing many files, one easy method is to copy the whole subdirectory underneath <code>BUILD</code> and then do subdirectory diffs.  After you have changed directory to "<code>~rpmbuild/BUILD/NAME</code>", do the following:
  cp -pr ./ ../PACKAGENAME.orig/
  cp -pr ./ ../PACKAGENAME.orig/
  ... many edits ...
  ... many edits ...
  diff -u ../PACKAGENAME.orig . > ~/rpmbuild/SOURCES/''NAME''.''REASON''.patch
  diff -ur ../PACKAGENAME.orig . > ~/rpmbuild/SOURCES/''NAME''.''REASON''.patch


If you edit many files in one patch, you can also copy the original files using some consistent ending such as ".orig" before editing them. Then, you can use "gendiff" (in the rpm package) to create a patch with the differences.  Do "man gendiff" for more information.
If you edit many files in one patch, you can also copy the original files using some consistent ending such as "<code>.orig</code>" before editing them. Then, you can use "<code>gendiff</code>" (in the <code>rpm-build</code> package) to create a patch with the differences.


Try to ensure that in your patch the "context" matches exactly.
Try to ensure that your patch match the context exactly. The default "fuzz" value is "<code>0</code>", requiring matches to be exact. You can work around this by adding "<code>%global _default_patch_fuzz 2</code>" to revert to the value found in older versions of RPM in Fedora, but it is generally recommended to avoid doing this.
In old versions of Fedora, the default "fuzz" value was 2, which meant that imprecise matches were acceptable.
However, the version of [http://lwn.net/Articles/289235/ RPM used by Fedora 10 and later] have a default fuzz to 0, requiring that matches be exact.
You can work around this by adding "%global _default_patch_fuzz 2", but it's better to not
have the problem by making the patch match the context exactly.


As explained in [[Packaging/PatchUpstreamStatus]], all patches in Fedora spec files SHOULD have a comment above them about their upstream status. This should document the upstream bug/email that includes it (including the date), or if it's Fedora-unique, why it is unique.
As explained in [[Packaging/PatchUpstreamStatus]], all patches should have a comment above them in the SPEC file about their upstream status. This should document the upstream bug/email that includes it (including the date). If it is unique to Fedora, you should mention why it is unique. The Fedora Project tries not to deviate from upstream; see [[PackageMaintainers/WhyUpstream]] for the importance of this.
The Fedora Project focuses, as much as possible, on not deviating from upstream in the software it includes in the repository - see [[PackageMaintainers/WhyUpstream|Staying close to upstream projects]] for more about why it's important to do this.


==== %prep section: Unmodified files ====
==== %prep section: Unmodified files ====


Sometimes, you'll package just a straight file that doesn't need to be uncompressed, e.g., a "Source1:" that is just a simple PDF file. These might not be from external sources, e.g., perhaps you've had to create a few additional files that weren't in the original sources so that the package cleanly installs in Fedora.  You can "prep" those into the build directory by doing this (replace "1" with whatever number it is):
Sometimes, one or more of the Source files do not need to be uncompressed. You can "prep" those into the build directory like this (where <code>SOURCE1</code> refers to the relevant Source file):
  cp -p %SOURCE1 .
cp -p %SOURCE1 .


=== %build section ===
=== %build section ===
Line 444: Line 357:
The "%build" section is sometimes complicated; here you configure and compile/build the files to be installed.
The "%build" section is sometimes complicated; here you configure and compile/build the files to be installed.


Many programs follow the GNU configure approach (or some variation). By default, they will install to a prefix of "/usr/local" (/usr/local/bin, /usr/local/lib, etc.), which is a reasonable default for unpackaged files. However, since you ''are'' packaging it, you will want to change the prefix to "/usr", since this is now a package maintained by the system itself. If there are any libraries, they'll need to be installed in the right directory, which is either /usr/lib or /usr/lib64 depending on the architecture (the actual value is in %{_libdir}).
Many programs follow the GNU <code>configure</code> approach (or some variation). By default, they will install to a prefix of "<code>/usr/local</code>", which is reasonable for unpackaged files. However, since you are packaging it, change the prefix to "<code>/usr</code>". Libraries should be installed to either <code>/usr/lib</code> or <code>/usr/lib64</code> depending on the architecture.


Since the GNU "configure" system is so common, rpm pre-defines a macro named "%configure", which invokes GNU configure with the right options (e.g., it changes --prefix to /usr). This means that some variation of this will often work as a build command:
Since GNU <code>configure</code> is so common, the macro "<code>%configure</code>" can be used to automatically invoke the correct options (e.g. change the prefix to <code>/usr</code>). Some variation of this often works:
   %configure
   %configure
   make %{?_smp_mflags}
   make %{?_smp_mflags}


Sometimes you'll want to override the variables of a makefile; you can easily do that by passing them as parameters to make, like this:
To override makefile variables, pass them as parameters to <code>make</code>:
  make %{?_smp_mflags} CFLAGS="%{optflags}" BINDIR=%{_bindir}
  make %{?_smp_mflags} CFLAGS="%{optflags}" BINDIR=%{_bindir}


If you need to do something complicated with GNU-generated configure, take a look at [http://sourceware.org/autobook/ "GNU autoconf, automake, and libtool"].  A good presentation on these as well as "make" is [http://www.suse.de/~sh/automake/automake.pdf "Open Source Development Tools: An Introduction to Make, Configure, Automake, Autoconf" by Stefan Hundhammer].
More more information, see [http://sourceware.org/autobook/ "GNU autoconf, automake, and libtool"] and [http://www.suse.de/~sh/automake/automake.pdf "Open Source Development Tools: An Introduction to Make, Configure, Automake, Autoconf" by Stefan Hundhammer]. (Link is broken)
 
Some programs use Cmake.  See [[Packaging/cmake]] for some suggestions.
 
If you include some self-tests (and that's a good idea), put them in a separate "%check" section that immediately follows the "%build" area, instead of including them in %build.  That way, it will be easy for the system to skip unnecessary self-tests.
 
=== %check section ===


The "%check" section does testing, often it's "make test".
Some programs use <code>cmake</code>. See [[Packaging/cmake]].
This is not documented in many other sources of RPM info.


=== %install section ===
=== %install section ===


The "%install" section is a set of script commands to "install" the program. The commands in this section should copy the files from a directory inside the "build directory" %{_builddir} (normally ~/rpmbuild/BUILD/''something'') into the build root directory, %{buildroot} (normally /var/tmp/''something''), creating the directories inside %{buildroot} as necessary.
This section involves script commands to "install" the program, copying the relevant files from <code>%{_builddir}</code> to <code>%{buildroot}</code> (which usually means from <code>~/rpmbuild/BUILD</code> to <code>~/rpmbuild/BUILDROOT</code>) and creating directories inside <code>%{buildroot}</code> as necessary.


'''Watch out''': Some of the terminology is very misleading:
Some of the terminology can be misleading:
* The ''build directory'' (under which compilations occur during %build) and the ''build root'' (where files are copied into during the %install process) are '''different'''.  The point of the %install process is to copy files, such as those under the build directory, to the right place in the build root. Perhaps "buildroot" should be called "installroot", but it's too late now, the terminology is entrenched.
* The "build directory", also known as <code>%{_builddir}</code> is not the same as the "build root", also known as <code>%{buildroot}</code>. Compilation occurs in the former directory, while files to be packaged are copied from the former to the latter.
* The build directory is normally ~/rpmbuild/BUILD, while the build root (where files get installed to during %install) is normally ~/rpmbuild/BUILDROOT.  The %prep stage will normally create a subdirectory underneath the build directory as part of %setup, and populate the build directory with files (based on the source information in %_sourcedir, which is typically in ~/rpmbuild/SOURCES). During %build, the current directory will actually start at %{buildsubdir}, that newly-created  subdirectory under the build directory.  Typically %{buildsubdir} is something like ~/rpmbuild/BUILD/%{name}-%{version}.
* During the %build section, the current directory will start at <code>%{buildsubdir}</code>, which is the subdirectory within <code>%{_builddir}</code> that was created during %prep stage. This is usually something like <code>~/rpmbuild/BUILD/%{name}-%{version}</code>.
* The "%install" script is ''not'' used when the binary rpm package is installed by the end-user!! The term "%install" is misleading, in fact, the script must ''not'' install the programs in the REAL final locations (e.g., in /usr/bin), but under the buildroot %{buildroot}.
* The %install section is '''not''' run when the binary RPM package is installed by the end-user, but is only run when creating a package.


Normally, the install script would first erase the %{buildroot} directory, and then do some variation of "make install" (ideally using DESTDIR=%{buildroot}, if the program supports it). Here's an example of an %install section:
Normally, some variation of "<code>make install</code>" is performed here:
  %install
  %install
  rm -rf %{buildroot}
  rm -rf %{buildroot} # redundant except for RHEL 5
  make DESTDIR=%{buildroot} INSTALL="install -p" CP="cp -p" install
  %make_install


Ideally, every program would have a "make install" command that supported the [http://www.gnu.org/prep/standards/html_node/DESTDIR.html ''DESTDIR'' convention].  If the program includes a "make install" that supports DESTDIR, where possible, ''use it''. The DESTDIR convention supports redirecting file installations to descend from a specific directory, which is exactly what we want during %install.
Ideally you should use %make_install which is equivalent to [http://www.gnu.org/prep/standards/html_node/DESTDIR.html <code>DESTDIR=%{buildroot}</code>] if the program supports it, as it redirects file installations to the specified directory and is exactly what we want to happen during the %install section.


Installing a program that does not support DESTDIR can be much harder, and no option is as good as native DESTDIR support.  Consider these alternatives:
If the program does not support <code>DESTDIR</code> (and only if), you can workaround it in one of several (inferior) ways:
* Patch the makefile so that it ''does'' support DESTDIR. Create directories inside DESTDIR where necessary (feel free to use "mkdir -p", the "-p" option of mkdir is now standard and widely supported).  Be sure to submit the patch upstream.
* Patch the makefile so that is supports <code>DESTDIR</code>. Create directories inside <code>DESTDIR</code> where necessary and submit the patch upstream.
* Use "%makeinstall". Many older RPM documents suggest using "%makeinstall", which ''might'' work if "make install" doesn't support DESTDIR.  However, as noted in the Fedora guidelines, the %makeinstall macro "must NOT be used when make install DESTDIR=%{buildroot} works. %makeinstall is (merely) a kludge that can work with Makefiles that don't make use of the DESTDIR variable...".  Unfortunately, this sometimes has subtle failures, which is why %makeinstall should not be used if DESTDIR works.  The reason is based on how %makeinstall works. The "%makeinstall" macro expands to something like "<tt>make prefix=%{buildroot}%{_prefix} bindir=%{buildroot}%{_bindir} ... install</tt>".  Many programs will quietly recompile or change parts of the program when values like prefix are changed, resulting in an incorrect installation. See the Fedora guidelines if you want the details on why this approach can fail.  You will probably need to create appropriate directories inside %buildroot before calling %makeinstall (e.g., <tt>mkdir -p %{buildroot}%{_bindir}/</tt>).
* Use the "<code>%makeinstall</code>" macro. This method might work, but can lead to subtle failures. It expands to something like "<code>make prefix=%{buildroot}%{_prefix} bindir=%{buildroot}%{_bindir} ... install</code>", which can result in some programs failing to work properly. Create directories inside <code>%{buildroot}</code> where necessary.
* Consider using the auto-destdir package. This requires "BuildRequires: auto-destdir", and changing "make install" to "make-redir DESTDIR=%{buildroot} install". This only works well if the installation uses only certain common commands to install files, like cp and install; see "man make-redir" for details.
* Consider using the <code>auto-destdir</code> package. This requires "<code>BuildRequires: auto-destdir</code>", and changing "<code>make install</code>" to "<code>make-redir DESTDIR=%{buildroot} install</code>". This only works well if the installation uses only certain common commands to install files, like <code>cp</code> and <code>install</code>.
* Do the installation "by hand", that is, instead of invoking a build system, copy the files to the correct locations. Basically, this would be a sequence that would create directories that weren't already created by the "BuildRequires" packages (typically using install -d or mkdir -p), followed by copying of files from the current directory (inside the build directory) into the buildroot directory (typically using "cp -p" and/or "install -p"). Running "make -n install" may make it easy to determine what this sequence should be.  Be sure to create directories inside %buildroot where necessary. One serious problem with this approach is that it's easy to fail to install new or renamed files during an update&mdash;so if there's a better approach, use it instead.  If you ''do'' perform the installation "by hand", be ''especially'' careful with updates when using this approach. For example:
* Perform the installation by hand. This would involve creating the necessary directories under <code>%{buildroot}</code> and copying files from <code>%{_builddir}</code> to <code>%{buildroot}</code>. Be especially careful with updates, which often contain new or changed filenames. An example of this procedure:
  %install
  %install
  rm -rf %{buildroot}
  rm -rf %{buildroot}
Line 490: Line 396:
  cp -p mycommand %{buildroot}%{_bindir}/
  cp -p mycommand %{buildroot}%{_bindir}/


As noted in the [[Packaging:Guidelines#Timestamps|packaging guidelines' timestamp section]], "when adding file copying commands in the spec file, consider using a command that preserves the files' timestamps, eg. cp -p or install -p". So, if the makefile lets you override the install command (typically named INSTALL), you might want something like INSTALL="install -p" CP="cp -p" as make parameters, like this:
=== %check section ===
  make INSTALL="install -p" CP="cp -p" DESTDIR=%{buildroot} install
 
If self-tests are available, it is generally a good idea to include them. They should be placed in the %check section (which immediately follows the %install section, since files in %buildroot may be tested) instead of within the %build section itself, so that they can be easily skipped when necessary.
 
Often, this section contains:
  make test
 
Sometimes it can be:
  make check
 
Please explore the Makefile and choose the appropriate way.


=== %files section ===
=== %files section ===
The %files section identifies what files and directories were added by the package - and thus, which files and directories are ''owned'' by the package.  Ownership is important - when you type "rpm -qif ''blah''",  you'll see who owns ''blah''.  This section is used when performing the ''bin'' stage, to determine which files are placed into each binary RPM file.
This section declares which files and directories are owned by the package, and thus which files and directories will be placed into the binary RPM.


==== %files Basics ====
==== %files basics ====


The %files section normally begins with a %defattr line which sets the default file permissions. The format of this is %defattr(<file permissions>, <user>, <group>, <directory permissions>), that is, one can specify the permissions to apply to files and directories in the %files section. The fourth parameter is often omitted. Usually one uses %defattr(-,root,root,-), where "-" means "use the default permissions".
The <code>%defattr</code> sets the default file permissions, and is often found at the start of the <code>%files</code> section. Note that this is no longer necessary unless the permissions need to be altered. The format of this is:
%defattr(<file permissions>, <user>, <group>, <directory permissions>)
The fourth parameter is often omitted. Usually one uses <code>%defattr(-,root,root,-)</code>, where "<code>-</code>" uses the default permissions.


This is followed by names or patterns of the directories or files to be installed and owned by this package. You should use macros for directory names, e.g., use %{_bindir}/myfile instead of /usr/bin/myfile, and %{_sbindir}/killaccount instead of /usr/sbin/killaccount. If a name or pattern begins with "/" when expanded, then it is presumed to have been copied into the %{buildroot} followed by that pattern; when installed on the final system, it will be copied into that name ''without'' the buildroot prefix.  If you don't precede the pattern with "/", then it is presumed to be in the current directory (e.g., inside the build directory) - this is used for "documentation" files. So if your package just installs /usr/bin/mycommand, then your %files section ''could'' simply say:
You should then list all the files and directories to be owned by the package. Use macros for directory names where possible, which can be viewed at [[Packaging:RPMMacros]] (e.g. use <code>%{_bindir}/mycommand</code> instead of <code>/usr/bin/mycommand</code>). If the pattern begins with a "<code>/</code>" (or when expanded from the macro) then it is taken from the <code>%{buildroot}</code> directory. Otherwise, the file is presumed to be in the current directory (e.g. inside <code>%{_builddir}</code>, such as documentation files that you wish to include). If your package only installs a single file <code>/usr/sbin/mycommand</code>, then the <code>%files</code> section can simply be:
  %files
  %files
%defattr(-,root,root,-)
  %{_sbindir}/mycommand
  %{_sbindir}/mycommand


Any file or directory identified in the %files section is ''owned'' by the defining package. You should make sure that you declare ownership of every new file or directory the package creates.  You can use wildcards (*) which match a set of files - this makes the package less sensitive to changes. For example, you can declare that all the files that were copied into %{buildroot}/usr/bin are owned by this package by declaring:
To make your package less sensitive to upstream changes, declare all files within a directory to be owned by the package with a pattern match:
  %{_bindir}/*
  %{_bindir}/*


Note that "%{_bindir}/*" does not claim that this package owns the /usr/bin directory - it claims that all the files that were installed inside the ''build root'' 's /usr/bin are owned by the package.
To include a single directory:
If you list a ''directory'' in the %files section, then you are claiming that this package owns that subdirectory and all files and directories in it, recursively (''all'' the way down) if they are present in the build root.  Do not list the "/usr/bin" or "%{_bindir}" directories directly in your %files list, because that would claim ownership of /usr/bin and everything inside it.  Claiming ownership of "%{_bindir}/*" is fine, though; that just claims ownership of the subdirectories and files you placed ''under'' %{buildroot}/%{_bindir}.  If you create a subdirectory such as %{_datadir}/%{name}, (/usr/share/NAME), you ''should'' include that directory in the %files list:
  %{_datadir}/%{name}/
  %{_datadir}/%{name}/


It's usually easier to use wildcards for filenames, and that's also better at copying with changes in upstream.  Older RPM documentation typically shows long lists under %files with individual names, such as /usr/bin/program1 followed by /usr/bin/program2. Because of the way Fedora now uses buildroots, that is no longer necessary.
Note that <code>%{_bindir}/*</code> does not claim that this package owns the <code>/usr/bin</code> directory, but only the files contained within. If you list a directory, then you are claiming that the package owns that directory and all files and subdirectories contained within. Thus, do '''not''' list <code>%{_bindir}</code> and be careful of directories that may be shared with other packages.


It's an error if ''no'' file matches the wildcard of a line, so only note the directories that actually matter.  Also, you can't identify the same file or directory more than once.  Finally, it's an error to have something in the buildroot and ''not'' listed under %files; the whole point of copying something into the buildroot is because you intend to have it installed in the final system.  If you don't intend that, remove those files during the %install process.
An error will occur if:
* a pattern match does not match any file or directory
* a file or directory is listed or matched more than once
* a file or directory in the <code>%{buildroot}</code> has not been listed


It is also possible to exclude files from a previous match by using a %exclude glob. This can be useful for including "almost all" of the files that match a different glob. However, note that, like any other file glob, even a %exclude glob will fail if it matches nothing. (This might be considered counterintuitive, as the whole point is essentially to ensure that a certain file ISN'T there, so this rule is especially important to remember.)
It is also possible to exclude files from a previous match by using the <code>%exclude</code> glob. This can be useful for including almost all of the files included by a different pattern match, but note that it will also fail if it does not match anything.


==== %files prefixes ====
==== %files prefixes ====
You may need to add one or more prefixes to a %files entry (if more than one, use a space to separate them).
You may need to add one or more prefixes to lines in the <code>%files</code> section; seperate them with a space. See [http://www.rpm.org/max-rpm/s1-rpm-inside-files-list-directives.html Max RPM section on %files directives].
 
Usually, "<code>%doc</code>" is used to list documentation files within <code>%{_builddir}</code> that were not copied to <code>%{buildroot}</code>. A <code>README</code> and <code>INSTALL</code> file is usually included. They will be placed in an appropriate directory under <code>/usr/share/doc</code>, whose ownership does not need to be declared.
 
'''Note:''' If specifying a <code>%doc</code> entry, rpmbuild < 4.9.1 removes the doc directory it installs files into before installing them. This means that files already in it, for example installed in the <code>%install</code> section, are removed and do not end up in the package. If you want to install some files in the <code>%install</code> section, install them into a temporary staging directory inside the build dir (not build root), for example <code>_docs_staging</code>, and include them in the in the <code>%files</code> list like <code>%doc _docs_staging/*</code>.


Typically there is a "%doc" entry with a list of documentation files that didn't get copied into the buildroot; usually there is at least a README and LICENSE file. You ''must'' include the license file, if there is one. You may prefix some of these with %attr(mode, user, group) to set the file permission mode, user, or group.  You don't need to claim ownership of the /usr/share/doc/%{name} directory, that's automatic if there's a %doc entry. Any %doc entry must not affect the runtime of the application (if it is in %doc, the program must run properly if it is not present).
Configuration files should be placed in <code>/etc</code> and are normally specified like this (which makes sure user changes aren't overwritten on update):
  %config(noreplace) %{_sysconfdir}/foo.conf
If the update uses a non-backwards-compatible configuration format, then specify them like this:
  %config %{_sysconfdir}/foo.conf


There is a potential 'gotcha' with %doc entries: if you have a %doc entry, then you can't use commands during %install to copy files into the documentation directory descending from %_defaultdocdir. That's because if there's a %doc entry, rpmbuild will automatically remove the docdir files created by %install before installing the files listed with %doc.  This can hit you if, for example, you want an "examples" subdirectory in the documentation directory. In this case, don't use "%doc" to mark documentation.  Instead, create the directories and copy the files into %{buildroot}%{_defaultdocdir}/%{name}-%{version}/ during %install, and make sure that %files includes an entry for "%{_defaultdocdir}/%{name}-%{version}/".  They will still be correctly marked as documentation.
"<code>%attr(mode, user, group)</code>" can be used for finer control over permissions, where a "<code>-</code>" means use the default:
  %attr(0644, root, root) FOO.BAR


If you save configuration files (under /etc - don't put them under /usr), you should normally prefix them with %config(noreplace) unless this program version uses a non-backwards-compatible configuration format (in which case, prefix them with %config).
"<code>%caps(capabilities)</code>" can be used to give a file certain POSIX [http://linux.die.net/man/7/capabilities capabilities]. For example:


Prefixing a %files entry with "%attr(mode, user, group)" lets you set the permissions for particular file(s), e.g., "%attr(0644, root, root)".  A "-" means "use the default".
%caps(cap_net_admin=pe) FOO.BAR


If a file is in particular natural language, use %lang to note that. E.G.:
If a file is in particular natural language, use <code>%lang</code> to note that:
  %lang(de) %{_datadir}/locale/de/LC_MESSAGES/tcsh*
  %lang(de) %{_datadir}/locale/de/LC_MESSAGES/tcsh*


Programs using Locale files should follow the
Programs using Locale files should follow the [[Packaging:Guidelines#Handling_Locale_Files|recommended method of handling i18n files]]:
[[Packaging:Guidelines#Handling_Locale_Files|recommended method of handling the i18n files]]:
 
* find the filenames in the <code>%install</code> step: <code> %find_lang ${name}</code>
* find the filenames in the <code>%install</code> step: <code> %find_lang ${name}</code>
* add the required build dependencies: <code>BuildRequires: gettext</code>
* add the required build dependencies: <code>BuildRequires: gettext</code>
* use the found filenames: <code>%files -f ${name}.lang</code>
* use the found filenames: <code>%files -f ${name}.lang</code>


Some documentation claims that %license and %readme are valid prefixes; they are ''not'' valid in Fedora.  Use %doc instead.
The <code>%readme</code> prefix is '''not''' valid in Fedora.


==== %files and Filesystem Hierarchy Standard (FHS) ====
==== %files and Filesystem Hierarchy Standard (FHS) ====


You should follow the [http://www.pathname.com/fhs/ Filesystem Hierarchy Standard (FHS)], i.e., ordinary application executables go into /usr/bin, global configuration files go into /etc, ordinary libraries go into /usr/lib, and so on, with one exception: executables that should ''not'' normally be executed directly by users or administrators should go into a subdirectory of /usr/libexec; usually you'd refer to the necessary directory as "%{_libexecdir}/%{name}".
You should follow the [http://www.pathname.com/fhs/ Filesystem Hierarchy Standard (FHS)]. Executables go in <code>/usr/bin</code>, global configuration files go in <code>/etc</code>, libraries go into <code>/usr/lib</code> (or <code>/usr/lib64</code>) and so on. There is one exception: executables that should not normally be executed directly by users or administrators should go in a subdirectory of <code>/usr/libexec</code>, which is referred to as <code>%{_libexecdir}/%{name}</code>.


You shouldn't be installing files under /usr/local; that is where ''unpackaged'' files go.
Do '''not''' install files into <code>/opt</code> or <code>/usr/local</code>.
Typically there will be a "prefix" attribute that lets you set the prefix to be "/usr" instead of "/usr/local".


Unfortunately, many programs' "normal" installation routines do not follow the FHS.
Unfortunately, many programs do not follow the FHS by default. In particular, architecture-independent libraries get placed in <code>/usr/lib</code> instead of <code>/usr/share</code>. The former is for architecture-dependent libraries, while the latter is for architecture-independent libraries, which means that systems with different CPU architectures can share <code>/usr/share</code>. There are many exceptions in Fedora (such as Python and Perl), but Fedora applies this rule more strictly than some distributions. <code>rpmlint</code> will generally complain if you put anything other than ELF files into <code>/usr/lib</code>.
In particular, many programs normally place architecture-independent libraries under /usr/lib, instead of
under /usr/share as the FHS requires.
The [http://www.pathname.com/fhs/pub/fhs-2.3.html#USRLIBLIBRARIESFORPROGRAMMINGANDPA FHS /usr/lib section] says that
/usr/lib is for architecture-''dependent'' data (e.g., ELF files like .so files), while
[http://www.pathname.com/fhs/pub/fhs-2.3.html#USRSHAREARCHITECTUREINDEPENDENTDATA /usr/share] is for
architecture-''independent'' data.  That way, systems with different CPUs can share /usr/share.
There are many exceptions to this rule in Fedora (e.g., Python and Perl), but Fedora applies this rule more
strictly than some distributions. Note, for example, that rpmlint will complain if you
put just about anything other than ELF files into /usr/lib.


==== %files example ====
==== %files example ====
Line 563: Line 477:
Here's a simple example of a %files section:
Here's a simple example of a %files section:
  %files
  %files
  %defattr(-,root,root,-)
  %doc README
  %doc README LICENSE
  %license LICENSE COPYING
  %{_bindir}/*
  %{_bindir}/*
  %{_sbindir}/*
  %{_sbindir}/*
  %{_datadir}/%{name}/
  %{_datadir}/%{name}/
%config(noreplace) %{_sysconfdir}/*.conf


==== Finding duplicates ====
==== Finding duplicates ====
The Fedora guidelines require that
"A Fedora package must not list a file more than once in the spec
file's %files listings."


You can list any duplicates of two binary packages by doing:
You can list any duplicates of two binary packages by doing:
Line 582: Line 493:


=== Scriptlets ===
=== Scriptlets ===
You can add sections so that code will run when packages are installed or removed on the real system (as opposed to just running the %install script, which only does a pseudo-install to the build root).  These are called "scriptlets", and they are usually used to update the running system with information from the package.


The scriptlets in %pre and %post are run before and after a package is installed (respectively). The scriptlets %preun and %postun are run before and after a package is uninstalled. The scriptlets %pretrans and %posttrans are run at start and end of a transaction.  See [[Packaging/ScriptletSnippets]] for more examples and details.  For example, every binary RPM package which stores shared library files (not just symlinks) in any of the dynamic linker's default paths, must call ldconfig in %post and %postun (post-install and post-uninstall). If the package has multiple subpackages with libraries, each subpackage should also have a %post/%postun section that calls /sbin/ldconfig. For example:
When an end-user installs the RPM, you may want some commands to be run. This can be achieved through scriptlets. See [[Packaging/ScriptletSnippets]].
 
Scriptlets can be run:
* before ('''<code>%pre</code>''') or after ('''<code>%post</code>''') a package is installed
* before ('''<code>%preun</code>''') or after ('''<code>%postun</code>''') a package is uninstalled
* at the start ('''<code>%pretrans</code>''') or end ('''<code>%posttrans</code>''') of a transaction
 
For example, every binary RPM package that stores shared library files in any of the dynamic linker's default paths, must call <code>ldconfig</code> in <code>%post</code> and <code>%postun</code>. If the package has multiple subpackages with libraries, each subpackage should also perform the same actions.
  %post -p /sbin/ldconfig
  %post -p /sbin/ldconfig
  %postun -p /sbin/ldconfig
  %postun -p /sbin/ldconfig


''Beware'': The "-p" option specifies what ''command processor'' to use for the commands on the following lines.
If only running a single command, then the "<code>-p</code>" option runs the adjacent command without invoking the shell. However, for several commands, omit this option and include the shell commands beneath.
If there are no following lines, then using /sbin/ldconfig as the "command processor" is a minor efficiency improvement compared to putting "/sbin/ldconfig" on the next line, and letting the shell invoke it.
That's because by using "-p",
the shell isn't invoked simply to invoke a single program.
But if you have multiple shell commands,
don't use "-p" or /sbin/ldconfig after it!  Instead, leave it blank, and include the shell commands under it.


If you are going to run programs in scriptlets, they must be installed before you run them.
If you run any programs within the scriptlets, then you must specify any requirements in the form "<code>Requires(CONTEXT)</code>" (e.g. <code>Requires(post)</code>).
You have to use special variants of the "Requires:" tag, so that
the program will be installed before you try to use it.  These are of the form "Requires(CONTEXT):", e.g., "Requires(post)".


Most scriptlets (%pre, %post, %preun, and %postun) provide an argument you can use,
<code>%pre</code>, <code>%post</code>, <code>%preun</code>, and <code>%postun</code> provide the argument <code>$1</code>, which is the number of packages of this name which will be left on the system when the action completes. Don't compare for equality with <code>2</code>, but instead check if they are greater than or equal to <code>2</code>. For <code>%pretrans</code> and <code>%posttrans</code>, <code>$1</code> is always <code>0</code>.
accessed via $1, which is the number of packages of this name which will be left on the system
when the action completes.
Don't compare for ''equality'' with 2; check if they are ''greater than or equal than'' 2, since
users can arrange to have multiple versions of a package installed simultaneously.
For %pretrans and %posttrans, $1 is always 0.
 
For example, after adding an info manual to the system the dir file
which indexes the info manuals should be updated.
Basically, after you install the info manual, you need to run the program install-info.  That's fine, except that install-info is part of package info, and there's no guarantee that info is installed unless we require it. Also, if "install-info" fails, we don't want to fail ''all'' processing. Here's one way to do that:


For example, if the package installs an info manual, then the info manual index must be updated with <code>install-info</code> from the <code>info</code> package. Firstly, there is no guarantee that the <code>info</code> package will be available unless we explicitly declare it as required, and secondly, we don't want to fail completely if <code>install-info</code> fails:
  Requires(post): info
  Requires(post): info
  Requires(preun): info
  Requires(preun): info
Line 620: Line 522:
  fi
  fi


There is another glitch related to installing info files. The <code>install-info</code> command will update
There is one other glitch related to installing info manuals. The <code>install-info</code> command will update the info directory, so we should delete the useless empty directory from the %{buildroot} during the <code>%install</code> section:
the info directory, but we have to prevent the install of a useless, empty directory file from the  
RPM_BUILD_ROOT environment, by deleting it in  the <code>%install</code> section:
  rm -f $RPM_BUILD_ROOT%{_infodir}/dir
  rm -f %{buildroot}%{_infodir}/dir


Another scriptlet-like abilility are ''triggers''.  You can define triggers for when ''other'' packages
Another scriptlet-like ability are "triggers", which can be run for your package when other packages are installed or uninstalled. See [http://rpm.org/api/4.4.2.2/triggers.html RPM Triggers].
are installed or uninstalled. See ''Maximum RPM'' for more information about triggers.


=== Macros ===
=== Macros ===


Spec files may contain "macro" references (text beginning with "%"), which are replaced with other values.
Macros are text in the format <code>%{string}</code>. Typical macros:
You can follow % by a word, e.g., "%name", but just like shell variables you must bracket the name with {...}
if letters or digits immediately follow, e.g., "%{name}".
 
As noted in the
[[Packaging/Guidelines| Packaging Guidelines]],
There are two styles for referring some values such as the rpm Build Root and Optimization Flags:
* "macro style": %{buildroot}, %{optflags}
* "variable style": $RPM_BUILD_ROOT, $RPM_OPT_FLAGS
Pick a style and use it consistently throughout your packaging; this document uses "macro style".
 
Here are some typical macros:


{|
{|
! Macro !! Typical Expansion !! Meaning
! Macro !! Typical Expansion !! Meaning
|-
|-
| %{_bindir} || /usr/bin || Binary directory (where executables are usually stored)
| <code>%{_bindir}</code> || <code>/usr/bin</code> || Binary directory: where executables are usually stored.
|-
|-
| %{_builddir} || ~/rpmbuild/BUILD || Build directory; files are compiled a subdirectory of the build directory. See %buildsubdir.
| <code>%{_builddir}</code> || <code>~/rpmbuild/BUILD</code> || Build directory: files are compiled within a subdirectory of the build directory. See <code>%buildsubdir</code>.
|-
|-
| %{buildroot} || ~/rpmbuild/BUILDROOT || Build root, where files are "installed" during %install. The %install stage copies files from a subdirectory of %{_builddir} to a subdirectory of %{buildroot}. Historically %{buildroot} was in "/var/tmp/".
| <code>%{buildroot}</code> || <code>~/rpmbuild/BUILDROOT</code> || Build root: where files are "installed" during the <code>%install</code> stage, which copies files from a subdirectory of <code>%{_builddir}</code> to a subdirectory of <code>%{buildroot}</code>. (Historically, <code>%{buildroot}</code> was in "/var/tmp/".)
|-
|-
| %{buildsubdir} || %{_builddir}/%{name} || Build subdirectory, where files are compiled during %build. It's under %{_builddir}, set after %setup.
| <code>%{buildsubdir}</code> || <code>%{_builddir}/%{name}</code> || Build subdirectory: a subdirectory within <code>%{_builddir}</code> where files are compiled during the <code>%build</code> stage. It is set after <code>%autosetup</code>.
|-
|-
| %{_datadir} || /usr/share || Share directory.
| <code>%{_datadir}</code> || <code>/usr/share</code> || Share directory.
|-
|-
| %{_defaultdocdir} || /usr/share/doc || Default documentation directory.
| <code>%{_defaultdocdir}</code> || <code>/usr/share/doc</code> || Default documentation directory.
|-
|-
| %{dist} || .fc''NUMBER'' || Distribution+version short name (e.g., ".fc9")
| <code>%{dist}</code> || <code>.fc''NUMBER''</code> || Distribution+version short name (e.g. "<code>.fc{{FedoraVersion}}</code>")
|-
|-
| %{fedora} || ''NUMBER'' || Number of fedora release (e.g., 9)
| <code>%{fedora}</code> || <code>''NUMBER''</code> || Number of fedora release (e.g. "<code>{{FedoraVersion}}</code>")
|-
|-
| %{_includedir} || /usr/include
| <code>%{_includedir}</code> || <code>/usr/include</code>
|-
|-
| %{_infodir} || /usr/share/info
| <code>%{_infodir}</code> || <code>/usr/share/info</code>
|-
|-
| %{_initrddir} || /etc/rc.d/init.d
| <code>%{_initrddir}</code> || <code>/etc/rc.d/init.d</code>
|-
|-
| %{_libdir} || /usr/lib
| <code>%{_libdir}</code> || <code>/usr/lib</code>
|-
|-
| %{_libexecdir} || /usr/libexec
| <code>%{_libexecdir}</code> || <code>/usr/libexec</code>
|-
|-
| %{_localstatedir} || /var
| <code>%{_localstatedir}</code> || <code>/var</code>
|-
|-
| %{_mandir} || /usr/share/man
| <code>%{_mandir}</code> || <code>/usr/share/man</code>
|-
|-
| %{name} || || Name of package, set by Name: tag
| <code>%{name}</code> || || Name of package, set by Name: tag
|-
|-
| %{_sbindir} || /usr/sbin
| <code>%{_sbindir}</code> || <code>/usr/sbin</code>
|-
|-
| %{_sharedstatedir} || /var/lib
| <code>%{_sharedstatedir}</code> || <code>/var/lib</code>
|-
|-
| %{_sysconfdir} || /etc
| <code>%{_sysconfdir}</code> || <code>/etc</code>
|-
|-
| %{version} || || Version of package, set by Version: tag
| <code>%{version}</code> || || Version of package, set by Version: tag
|}
|}


To see more about macros you
Learn more about macros by looking in <code>/etc/rpm/*</code> and <code>/usr/lib/rpm</code>, especially <code>/usr/lib/rpm/macros</code>. Also use <code>rpm --showrc</code> to show values that RPM will use for macros (altered by <code>rpmrc</code> and macro configuration files).
can look in /etc/rpm/* and the "macros" files under "/usr/lib/rpm/",
especially /usr/lib/rpm/macros.
You can also use "rpm --showrc" to show the values rpm will use for all of the options
currently set in rpmrc and macro configuration files.


You can set your own macro values using %global; be sure to define them before you use them. Macro definitions
You can set your own macro values using %global, but be sure to define them before you use them. (Macro definitions can also refer to other macros.) For example:
can refer to other macros.  For example:
  %global date 2012-02-08
  %global myvalue 50


You can use rpmbuild to find the value of some macro, using its "-E" (--eval) option. For example, to find the current expansion of %{_bindir} in myfile.spec, you can run:
Use the "<code>-E</code>" option of <code>rpmbuild</code> to find the value of a macro in a SPEC file:
  rpmbuild -E '%{_bindir}' myfile.spec
  rpmbuild -E '%{_bindir}' myfile.spec


[[Packaging/RPMMacros]] has more information on macros, as does
Also see [[Packaging/RPMMacros]] and [https://docs.fedoraproject.org/en-US/Fedora_Draft_Documentation/0.1/html/RPM_Guide/ch09s07.html RPM Guide chapter 9].
[http://docs.fedoraproject.org/drafts/rpm-guide-en/ch09s07.html RPM Guide chapter 9].


=== Other tags ===
=== Other tags ===


We noted the "Requires" and "BuildRequires" tags earlier.
In addition to Requires and BuildRequires tags, you can also use these for controlling dependencies:
There are a few other tags for controlling dependencies:
* '''Provides''': list virtual package names that this package provides. For example, there might be a package "<code>foo</code>" that demands a particular functionality "bar" from another program. If there are several packages that can satisfy that demand, those packages can specify "<code>Provides: bar</code>" and the "<code>foo</code>" package can specify "<code>Requires: bar</code>". You could also use the [http://dailypackage.fedorabook.com/index.php?/archives/6-Wednesday-Why-The-Alternatives-System.html "alternatives" system], but avoid if multiple users on the same system might want different default, as these settings are system-wide. Use "<code>rpm -q --provides PACKAGENAME</code>" to see what a given package provides. Some examples of virtual packages in Fedora:
Provides, Obsoletes, Conflicts, and BuildConflicts.
** MTA: Used for mail transport agents, such as sendmail.
* "Provides:" lets you list ''virtual'' package names that this package provides. Sometimes there are several different packages that can provide a function, and using packages won't care which one.  In that case, each of the packages that provide the function should "provide" a virtual package, and then using packages can list the virtual package name under "Requires:".  For example, several different packages might provide "latex"; if you depend on the virtual package "tex(latex)", then users can choose which package to get "latex" from. If you provide virtual packages, you might also want to use the [http://dailypackage.fedorabook.com/index.php?/archives/6-Wednesday-Why-The-Alternatives-System.html "alternatives" system], but be careful: "alternatives" settings are ''system-wide'', so if multiple users on the same system might want different defaults, don't use the alternatives system. You can find out what a given package provides (both virtual and non-virtual names) by querying "rpm -q --provides PACKAGENAME". Some virtual packages in Fedora are:
** tex(latex): Used for latex
** ''MTA'' : Used for mail transport agents, such as sendmail.
* '''Obsoletes''': remove another named package(s) when this package is installed. Use when the package name changes or when it totally replaces a different package.
** ''tex(latex)'' : Used for latex
* '''Conflicts''': state what other packages cannot be installed simultaneously to this one. Avoid this if you can. See [[Packaging/Conflicts]].
* "Obsoletes:" lets you state that installing this package should (normally) cause the removal of the other named package(s). This is useful when a package's name changes, or when a package wholly replaces a different package.
* '''BuildConflicts''': state what packages cannot be installed when building this package. Avoid this if you can.
* "Conflicts:" lets you state what packages cannot be installed simultaneously this one. Obviously, try to avoid this if you can; see [[Packaging/Conflicts]] if you think you need to use it.
* "BuildConflicts:" lets you state what packages cannot be installed when building this package. Obviously, try to avoid this if you can.


You can control which architectures a package builds (or doesn't build). For example, if your package can't compile on ppc, you can do this:
To manage different architectures, there are two tags:
* '''ExcludeArch''': to exclude an architecture on which the package doesn't build. For example:
  ExcludeArch: ppc
  ExcludeArch: ppc
There's also an "ExclusiveArch" tag. The valid architectures one can specify in these tags are listed in the [[Architectures]] section.
* '''ExclusiveArch''': to include only the specified architecture. Avoid this unless absolutely correct.
Valid architectures are listed at [[Architectures]].


=== Subpackages ===
=== Subpackages ===
A spec file can define more than one binary package, e.g., client and server,
or runtime and developer packages.
If there's a large amount of documentation, it may be split into a NAME-doc subpackage.
You will always have one spec file and one source RPM (SRPM), even if there are
multiple binary RPMs that they generate.
A spec file that produces multiple binary packages still has only
one creation process, so there is only one
%prep, %build, %check, and %install section that creates all the files
for all the packages.


In a spec file, use the %package directive to start defining a subpackage:
A SPEC file can define several binary package. In other words, one SRPM with one SPEC file can result in several RPMS. Note that there is still only one creation (%prep, %build, %install etc.) process. <code>name-doc</code> and <code>name-devel</code> subpackages are common for documentation and development files respectively.
%package sub_package_name


By default, the subpackage name is PACKAGE_NAME, "-", SUBPACKAGE_NAME; you can
Use the <code>%package</code> directive to start defining a subpackage:
use "-n" to override this and make a new name:
  %package subpackage_name
  %package -n new_sub_package_name
 
After each <code>%package</code> directive, list the tags for the subpackage. This should at least include the Summary and Group tags, as well as the <code>%description subpackage_name</code> and <code>%files subpackage_name</code> directives:


After the %package directive, list the tags for the subpackage.
This should include at least the "Summary:" and "Group:" tags and directives
"%description SUBPACKAGE_NAME" and "%files SUBPACKAGE_NAME".
Anything not specified by the subpackage will be inherited from its parent.
Anything not specified by the subpackage will be inherited from its parent.
For the directives, if you used "-n" with %package,
you'll need it again for these directives.
You need to specify the name for the other directives, e.g., %pre and %post,
if you use them in the subpackage.


[http://docs.fedoraproject.org/drafts/rpm-guide-en/ch10s04.html See the RPM Guide section on subpackages] for more information.
By default, if the package name is "<code>foo</code>" and the subpackage name is "<code>bar</code>", then the resulting subpackage will be "<code>foo-bar</code>". You can override it with the "<code>-n</code>" option (but you'll need to use it in all other directives too if you specify it here):
%package -n new_subpackage_name
 
[http://docs.fedoraproject.org/en-US/Fedora_Draft_Documentation/0.1/html/RPM_Guide/ch10s04.html See the RPM Guide section on subpackages] for more information.


=== Conditionals ===
=== Conditionals ===


You can insert conditional statements.
You can insert conditional statements, for example to test if you are creating a binary for a certain architecture:
E.G., you can test if you are creating a binary for a certain architecture
with:
  %ifarch ARCHITECTURE_NAME
  %ifarch ARCHITECTURE_NAME
the negated version with:
the negated version with:
Line 760: Line 627:
  %if TRUE_OR_FALSE
  %if TRUE_OR_FALSE


There is an optional "%else" section; all of these are closed with "%endif".
There is an optional "<code>%else</code>" section; all of these are closed with "<code>%endif</code>".


=== Application Specific Guidelines ===
=== Application Specific Guidelines ===
Line 777: Line 644:
=== Miscellaneous hints ===
=== Miscellaneous hints ===


Try to write your scripts so that when upstream makes changes, the packaging is likely to work when you change the version number and reload the source file(s). For example, if it contains *.txt files with execute bits, instead of doing:
[[Packaging/FrequentlyMadeMistakes]] has information on frequently-made mistakes. There are also some recommendations and controversial tricks on
[[PackageMaintainers/Packaging Tricks]].
 
Try to write your SPEC files so that it is likely to work when a new release is made upstream, without any changes aside from bumping the version number and refreshing the source files. For example, if it contains *.txt files with execute bits, instead of doing
   chmod a-x Filename1.txt Filename2.txt Filename3.txt
   chmod a-x Filename1.txt Filename2.txt Filename3.txt
consider doing this, which will handle new filenames that use the same file naming convention:
consider doing this, which will handle new filenames that use the same file naming convention:
Line 784: Line 654:
If you want to see lots of examples of scriptlets, you can show all the scriptlets on installed programs using:
If you want to see lots of examples of scriptlets, you can show all the scriptlets on installed programs using:
   rpm -qa --queryformat "\n\nPACKAGE: %{name}\n" --scripts | less
   rpm -qa --queryformat "\n\nPACKAGE: %{name}\n" --scripts | less
[[Packaging/FrequentlyMadeMistakes]] has information on frequently-made mistakes.


Don't try to interact with the user; RPM is designed to support batch installs.  If an application needs to show a EULA, that needs to be part of its initial execution, not its installation.
Don't try to interact with the user; RPM is designed to support batch installs.  If an application needs to show a EULA, that needs to be part of its initial execution, not its installation.


You might not want to start services, because in a big install that could slow things down. If you install an init script, consider using chkconfig to arrange for the service to be started and stopped on the next reboot.  Before ''uninstalling'' you should normally try to stop its services if it's running.
You might not want to start services, because in a big install that could slow things down. If you install an init or systemd script, consider using <code>chkconfig</code> or <code>systemctl</code> to arrange for the service to be started/stopped on the next reboot.  Before uninstalling, you should normally try to stop its services if they are running.


Uninstall should reverse most changes made during installation, but don't remove any user-created files.
Uninstalling should reverse most changes made during installation, but don't remove any user-created files.


Normally, if there are binary executables, a separate "debug" package is created with the symbols, and the symbols are stripped from the normal binary packages. If this shouldn't happen, you can disable the package-creation and stripping with:
Normally, if there are binary executables, then debugging symbols are stripped from the normal binary packages and placed into a <code>name-debug</code> subpackage. If this shouldn't happen, you can disable the stripping and creation of this subpackage by putting this at the top of your SPEC:
  %global _enable_debug_package 0
  %global _enable_debug_package 0
  %global debug_package %{nil}
  %global debug_package %{nil}
  %global __os_install_post /usr/lib/rpm/brp-compress %{nil}
  %global __os_install_post /usr/lib/rpm/brp-compress %{nil}


To prevent stripping you may also need to do this in the %install section:
To prevent stripping you may also need to do this in the <code>%install</code> section:
  export DONT_STRIP=1
  export DONT_STRIP=1


A way to check for the version of Fedora in a spec file for conditional builds is:
A way to check for the version of Fedora in a SPEC file for conditional builds is:
  %if 0%{?fedora} <= <version>
  %if 0%{?fedora} <= <version>
(The ? causes the macro to evaluate to blank if %fedora is not defined, and this causes the end result to be "0", which is a number and thus ok, while not interfering with the result if there is actually a value for %fedora.)
The <code>?</code> causes the macro to evaluate to evaluate to blank if <code>%fedora</code> is not defined. This causes the end result to be the <code>0</code> (which is a number and thus fine), while not interfering with the result if there is actually a value for <code>%fedora</code>. (Note that this trick does not work in Koji "scratch" builds, where <code>%fedora</code> is set during the creation of a SRPM.)
 
Note that the previous trick DOES NOT work in Koji "scratch" builds - %fedora is set during the creation of a source RPM. (Thus, this trick does work in actual Koji builds as the system extracts sources from the source RPM and rebuilds the source RPM with the appropriate %fedora value.)
 
There are also some recommendations and controversial tricks on
[[PackageMaintainers/Packaging Tricks]].


GUI programs ''must'' have a desktop entry (so that people can invoke it from a graphical menu). The
GUI programs must have a desktop entry so that people can invoke it from the graphical desktop menu. For <code>.desktop</code> files, see [[Packaging/Guidelines#Desktop_files|Fedora packaging guidelines for desktop files]] and [http://standards.freedesktop.org/desktop-entry-spec/latest/ desktop entry spec]. For icons within <code>/usr/share/icons</code>, see [http://standards.freedesktop.org/icon-theme-spec/icon-theme-spec-latest.html icon theme spec].
[http://fedoraproject.org/wiki/Packaging/Guidelines#Desktop_files Fedora packaging guidelines discuss desktop files].  See also the [http://standards.freedesktop.org/desktop-entry-spec/latest/ desktop entry spec] (for .desktop files) and
[http://standards.freedesktop.org/icon-theme-spec/icon-theme-spec-latest.html icon theme spec] (for icon-related materials such as those in /usr/share/icon).


=== Older RPM documents ===
== Building the binary package ==
Some older documents about RPM have the most information, but some older documents make claims that are no longer true:
* rpm files are no longer placed in a shared /usr/src/redhat directory.  This is an obsolete way of using rpm and ''not'' recommended; modern systems set a %{_topdir} instead like ~/rpmbuild.
* the %install process does not install files in their final location.  Instead, it "installs" files to the buildroot.
* The "rpm" command no longer creates packages (e.g., "rpm -ba" was once legal). Use the separate "rpmbuild" program instead.
* Many historical specs use the "%define" command to define macros.  However, "%define" creates a locally defined submacro within other macro definitions; this is very rarely needed, and using %define incorrectly can cause subtle bugs.  For nearly all uses, use "%global" instead.  (See [[PackagingDrafts/global_preferred_over_define]].)
* The "BuildRoot:" value is now ignored.


== Quick test with rpmlint ==
=== Test with rpmlint ===


Before trying to build anything from it, you should run ''rpmlint'' on the spec file:
To catch many common errors early, run <code>rpmlint</code> on your SPEC file before trying to build anything from it:
  rpmlint program.spec
  $ rpmlint program.spec
This will catch many errors early. If the reported error doesn't make sense,
If the reported error doesn't make sense, run it again with the "<code>-i</code>" option for longer messages.
run it again with the "-i" option (this gives longer messages).


Generally, you should not have errors from rpmlint, but sometimes
Aim to have no errors, but sometimes <code>rpmlint</code> reports false positives. The [[Packaging/Guidelines#Use_rpmlint|Fedora packaging guidelines]]
rpmlint is excessively noisy.
explains which ones to ignore.
The
[http://fedoraproject.org/wiki/Packaging/Guidelines#Use_rpmlint Fedora packaging guidelines]
explain which ones to ignore, e.g., ignore "no-packager-tag" and "no-signature" errors.


== Creating RPMs from the spec file ==
=== Create binary RPMS from the SPEC file ===


Once you've create a spec file, say "program.spec", you can create
Once you've created your SPEC file, build the SRPM and binary RPMS by running this:
source and binary RPMs by simply running this:
$ rpmbuild -ba program.spec
  $ rpmbuild -ba program.spec


If this works, then your binary RPM files will be created underneath ~/rpmbuild/RPMS/ and the source RPM will be in ~/rpmbuild/SRPMS.
If successful, RPMS will be created within <code>~/rpmbuild/RPMS</code> and SRPMS will be created within <code>~/rpmbuild/SRPMS</code>.


When things go wrong, you can "cd" into the appropriate directory and see what's left over.
If it fails, go to the appropriate directory and see what is left over. To help debug, you can skip earlier stages that succeeded with the "<code>--short-circuit</code>" option. For example, to restart at the <code>%install</code> stage (skipping earlier stages), do this:
If you want to skip earlier stages, use the "--short-circuit" option; this is handy if you had a successful build, but have an error in the %install section. For example, to restart at the %install stage (skipping earlier stages), do this:
$ rpmbuild -bi --short-circuit program.spec
  $ rpmbuild -bi --short-circuit program.spec


If you just want to create a source RPM (.src.rpm), do this in the SPECS directory:
If you just want to create an SRPM (which does not run the <code>%prep</code> or <code>%build</code> or other stages), run this:
  rpmbuild -bs program.spec
  rpmbuild -bs program.spec
This will create the source RPM in ~/rpmbuild/SRPMS.  Creating ''only'' a source rpm (.src.rpm) is quite quick, because rpm simply needs to copy the .spec file and associated SOURCES files into a .src.rpm file.  Creating a binary rpm typically takes ''much'' longer, because this requires running the %prep, %build, and %install scripts.


== Testing RPMs you've built (including rpmlint) ==
=== Testing binary RPMS with rpmlint ===


Run rpmlint on the .spec files, generated ''binary'' RPM, and generated source RPM. Rpmlint works on .spec files, binary RPMs, and source RPMs, finding different things in each.  You need to eliminate or justify rpmlint warnings before posting a package. If you are in the SPECS directory, do this:
<code>rpmlint</code> can be run on SPEC files, RPMS and SRPMS to check for errors. You need to eliminate or justify warnings before posting a package. [[Common_Rpmlint_issues|This page]] offers explanations for some of the common issues that come up. If you are in the SPECS directory, do this:
  $ rpmlint ''NAME''.spec ../RPMS/*/''NAME''*.rpm ../SRPMS/''NAME''*.rpm
  $ rpmlint ''NAME''.spec ../RPMS/*/''NAME''*.rpm ../SRPMS/''NAME''*.rpm


Normally rpmbuild will build a binary RPM with debugging information - this will handle that.
Enter the <code>~/rpmbuild/RPMS</code> directory and into the architecture subdirectory. You will find some binary RPMS. Quickly see their files and permissions (to check whether they are correct) by doing:
$ rpmls *.rpm


If you "cd" to the "~/rpmbuild/RPMS" directory, and then cd to the architecture subdirectory,
If they look fine, install them as root:
you'll find some binary rpms. You can quickly see their files and their permissions by using rpmls
  # rpm -ivp package1.rpm package2.rpm package3.rpm ...
(check to see that they are what you expect):
  $ rpmls *.rpm


If those look okay, you can become root and try to install them:
Test the programs in a few different ways to see if everything works correctly. If it is a GUI tool, make sure it shows up in the desktop menu, otherwise the <code>.desktop</code> entry is wrong.
# rpm -ivp XYZ1.rpm XYZ2.rpm XYZ3.rpm ...


Then, you can test them out. Use it a few different ways and see if it works correctly.  If it's a GUI tool, make sure it shows up in the menu (if it doesn't, something is wrong with your .desktop entry).
Uninstall packages later by doing:
  # rpm -e package1 package2 package3


You can uninstall packages later using:
== Mock and Koji ==
# rpm -e XYZ1 XYZ2 XYZ3


If that works, you can use Mock to do a more rigorous test that you have accurate build dependencies.  Basically, mock will create a nearly-empty environment and try to rebuild the package; if it fails, then you forgot to list something in a "BuildRequires:" statement. See [[Using Mock to test package builds]] for more information about how to use Mock; once your account is a member of the "mock" group, you can run commands like this to do local testing:
[[Projects/Mock|Mock]] is a powerful tool that uses the SRPM you have created to build binary packages within a nearly empty environment. This can reveal if you have accurate build dependencies. If it fails, then you forgot to list something in BuildRequires. See [[Using Mock to test package builds]]. Once your account is a member of the "<code>mock</code>" group, you can run commands like this to do local testing:
  $ mock -r fedora-9-i386 rebuild path_to_source_RPM
  $ mock -r fedora-9-i386 rebuild path_to_source_RPM


If a mock build fails, or the resulting program doesn't work correctly, then you almost certainly have one or more missing BuildRequires packages.
You can use Koji (which uses <code>mock</code>) to do builds on many different systems, some of which you may not have. [[PackageMaintainers/Join]] and [[PackageMaintainers/UsingKoji]] have more information about Koji. Once it's set up, you can test your SRPM on a variety of platforms by running commands like:
 
Once Mock works on your system, you can use Koji (which uses Mock) to do builds on
many different systems, some of which you may not have.
[[PackageMaintainers/Join]] and [[PackageMaintainers/UsingKoji]] have more information about Koji.
Once it's set up, you can test your source RPM
on a variety of platforms by running commands like:
  $ koji build --scratch dist-f9 path_to_source_RPM
  $ koji build --scratch dist-f9 path_to_source_RPM


You can replace dist-f9 with dist-f8, dist-f10, etc., to try other releases. Don't use "dist-rawhide", that's not really rawhide. Remember, the values of %fedora, %fc9, etc., will not be correct for a scratch build, so this won't work if your spec file does something different based on those values.
Replace <code>dist-f9</code> with any later release of Fedora, but don't use <code>dist-rawhide</code>. Remember, the values of <code>%fedora</code>, <code>%fc9</code> and so on will not be correct for a scratch build, so this won't work if your SPEC file does something different based on those values.


Your koji builds can only depend on packages that are actually in the TARGET distribution repository.  Thus, you can't use koji to build for released distributions if your package depends on other new packages that Bodhi hasn't released yet. You ''can'' use koji to build for rawhide (the next unreleased version), even if it depends on other new packages, as long as the other packages were built in the CVS "devel" section as described below.
Your Koji builds can only depend on packages that are actually in the TARGET distribution repository.  Thus, you can't use Koji to build for released distributions if your package depends on other new packages that Bodhi hasn't released yet. If you need to build against a package that is not yet a stable released update, submit a Koji buildroot override request via Bodhi. If it's not your own package you depend on, contact its maintainer(s). [Before Bodhi could handle Koji buildroot override requests, the old method has been to file a ticket with rel-eng at: https://fedorahosted.org/rel-eng/newticket and request that that package be added as a buildroot override.]
If you need to build against a package that is not yet a stable released update, you can file a ticket with rel-eng at: https://fedorahosted.org/rel-eng/newticket and request that that package be added as a buildroot override.


== Helpful tools ==
== Helpful tools ==


The "rpmdevtools" package has a number of helpful tools; "rpm -qil rpmdevtools" will show you what it installs.
The <code>rpmdevtools</code> package has a number of helpful tools; "<code>rpm -qil rpmdevtools</code>" will show you what it installs.
One particularly useful tool is rpmdev-bumpspec, which has this form:
* <code>rpmdev-bumpspec</code> : bump the release tag in the spec file and add a changelog comment with the right date and version format:
  rpmdev-bumpspec --comment=COMMENT --userstring=NAME+EMAIL_STRING SPECFILES
  rpmdev-bumpspec --comment=COMMENT --userstring=NAME+EMAIL_STRING SPECFILES
rpmdev-bumpspec will bump the release tag in the spec file(s), and add a changelog comment with the right datetime and version format.  COMMENT should typically start with "- ".


Similarly, "yum-utils" has a number of yum-specific tools.  "yumdownloader" is especially helpful; you can download the source RPM of a package by simply running "yumdownloader --source PACKAGENAME"You can then use "rpm -U SOURCEPACKAGENAME" to install the source files. E.G., "yumdownloader --source glib; rpm -Uvh glib*.src.rpm".
DNF download plugin (from core DNF plugins) is also useful:
* <code>dnf download</code> : download the SRPM of the package by running:
dnf download --source PACKAGENAME
 
The <code>auto-buildrequires</code> package has a pair of nice tools for helping to figure out the proper BuildRequires entriesAfter installing this package, replace "<code>rpmbuild</code>" with "<code>auto-br-rpmbuild</code>" and you'll see an automatically generated BuildRequires list.
 
You might find [http://rust.sourceforge.net/ RUST] useful (GPL), though it does not create SPEC files of suitable quality for Fedora packages. [http://kitenet.net/~joey/code/alien/ Alien] converts between package formats. It won't produce clean SRPMS, but converting an existing package might provide helpful information.
 
If you are thinking about packing your rpm for Fedora, be sure you run your packages through [https://fedorahosted.org/FedoraReview/ Fedora Review], which helps ensure that you comply to the [https://fedoraproject.org/wiki/Packaging:Guidelines?rd=Packaging/Guidelines Packaging Guideline].


The auto-buildrequires package has a pair of nice tools for helping to figure out the proper BuildRequires entries.  After installing this package, replace "rpmbuild" with "auto-br-rpmbuild" and you'll see an automatically-generated buildrequires list.
Finally, [https://github.com/alanfranz/docker-rpm-builder docker-rpm-builder] (APL 2.0) uses [http://www.docker.com Docker] to build RPM packages; while using rpmbuild requires building on the same host distro as the target, and mock works fine on Fedora/Centos/RHEL distributions for any target, '''this last tool works fine whenever Docker can run'''.


You might find [http://rust.sourceforge.net/ RUST] useful (GPL).
If you want to build your package for diferent distribution and architectures and to have publicly accesible dnf repository, you can submit your src.rpm to [https://copr.fedoraproject.org Copr].
It is "a drag &amp; drop RPM creation GUI and a 'sandboxing' toolkit that allows you to do software installations within a chrooted environment and automatically generate RPMs from arbitrary source code, without ever seeing a spec file."
If you're creating spec files, it can help you determine the %files.
Note, however, that it does not create .spec files, nor does it create packages of adequate quality for the Fedora repository; it is primarily a tool for making quick-and-dirty binary RPM packages.
(Note: it is no longer at "rusthq.com".)


[http://kitenet.net/~joey/code/alien/ Alien] converts between package formats.
If you need to sign your new package, use <code>rpmsign</code> tool from
It won't produce clean source RPMs, but converting an existing package
<code>rpm-sign</code> package.
might provide helpful information.


== Guidelines and rules ==
== Guidelines and rules ==


When you create your packages, you'll need to follow the following rules and guidelines:
When you create your packages, you'll need to follow the following rules and guidelines:
* [[Join the package collection maintainers| How to join the Fedora Package Collection Maintainers]] - describes the process for becoming a Fedora package maintainer
* [[Join the package collection maintainers|How to join the Fedora Package Collection Maintainers]]
* [[Packaging:Guidelines | Packaging Guidelines]]
* [[Packaging:Guidelines|Packaging Guidelines]]
* [[Packaging:NamingGuidelines| Package Naming Guidelines]]  
* [[Packaging:NamingGuidelines|Package Naming Guidelines]]
* [[Packaging:DistTag| Dist Tag Guidelines]]  
* [[Packaging:LicensingGuidelines|Package Licensing Guidelines]]
* [[Packaging:ReviewGuidelines| Package Review Guidelines]]
* [[Packaging:DistTag|Dist Tag Guidelines]]  
* [[Packaging:ReviewGuidelines|Package Review Guidelines]]
 
There are many official guidelines that will help you with specific circumstances (e.g. Java programs, OCaml programs, GNOME programs). You can also learn more from the [[SIGs]] and [[:Category:Package Maintainers|Package Maintainers]] sections.


There are many official guidelines that will help you with specific circumstances
(Java programs, OCaml programs, GNOME programs, etc.); the
[[Packaging:Guidelines|Packaging Guidelines]] include cross-references to those guidelines.
You can also learn more from the [[SIGs]] and
[[:Category:Package Maintainers|Package Maintainers]] sections.
[https://fedoraproject.org/wiki/Special:Prefixindex/Packaging You can also see the list of all Wiki pages about Packaging] to see if any apply.
[https://fedoraproject.org/wiki/Special:Prefixindex/Packaging You can also see the list of all Wiki pages about Packaging] to see if any apply.


Failing that, you might find some useful recommendations in the unofficial
Failing that, you might find some useful recommendations in the unofficial [https://fedoraproject.org/wiki/Special:Search?ns0=1&search=PackagingDrafts%2F&searchx=Search Packaging Drafts] and [[PackagingDrafts|Packaging Drafts To Do]].
[https://fedoraproject.org/wiki/Special:Search?ns0=1&search=PackagingDrafts%2F&searchx=Search Packaging Drafts] and [https://fedoraproject.org/wiki/PackagingDrafts Packaging Drafts To Do].
 
These are unofficial, obviously.
You might find ideas from [http://en.opensuse.org/Packaging SuSE],
You might find ideas from [http://en.opensuse.org/Packaging SuSE],
[http://www.debian.org/doc/debian-policy/ Debian], but
[http://www.debian.org/doc/debian-policy/ Debian], but
[http://www.mail-archive.com/distributions@lists.freedesktop.org/msg00156.html distributions differ in their rules], so do not presume they can be used directly.
[http://www.mail-archive.com/distributions@lists.freedesktop.org/msg00156.html distributions differ in their rules], so do not presume they can be used directly.


The .spec files that you create must be open source software, as noted in the
'''The .spec files that you create must be open source software, as noted in the [[Legal:Fedora_Project_Contributor_Agreement|FPCA]].'''
[http://fedoraproject.org/wiki/Legal/Licenses/CLA CLA].


== Maintaining the package ==
== Maintaining the package ==


Once your package is accepted, you (or your co-maintainers) need to maintain it.
Once your package has been accepted, you and your co-maintainers will need to maintain it. See [[Package update HOWTO]] and [[Package update guidelines]]. If you update the version in multiple releases of Fedora, do it backwards in time (e.g. release for Fedora N, then once that's accepted, Fedora N-1). The system presumes that later versions of Fedora have the same or later versions of programs.
See the [[Package update HOWTO]] and [[Package update guidelines]] for more information.
If you update the version in multiple releases of Fedora, do it "backwards" in time, e.g.,
release for Fedora N, then once that's accepted, Fedora N-1
(the system presumes that later versions of Fedora have the same or later versions of programs).


Encourage the upstream developers to use standard source code release conventions. Using standard conventions makes packaging ''much'' easier. For more information, see:
Encourage the upstream developers to use standard source code release conventions. Using standard conventions makes packaging much easier. For more information, see:
* [http://www.dwheeler.com/essays/releasing-floss-software.html Releasing Free/Libre/Open Source Software (FLOSS) for Source Installation] (a quick summary)
* [http://www.dwheeler.com/essays/releasing-floss-software.html Releasing Free/Libre/Open Source Software (FLOSS) for Source Installation] (a quick summary)
* [http://www.gnu.org/prep/standards/html_node/Managing-Releases.html GNU Coding Standards release process]
* [http://www.gnu.org/prep/standards/html_node/Managing-Releases.html GNU Coding Standards release process]
Line 962: Line 795:
* [http://www.redhatmagazine.com/2008/02/28/when-sally-met-eddie-the-fedora-package-story/ When Sally met Eddie] - a simple tale, but little detail
* [http://www.redhatmagazine.com/2008/02/28/when-sally-met-eddie-the-fedora-package-story/ When Sally met Eddie] - a simple tale, but little detail
* [http://rpm.org/max-rpm-snapshot/ Maximum RPM Book] - most complete information, but in some cases old/obsolete
* [http://rpm.org/max-rpm-snapshot/ Maximum RPM Book] - most complete information, but in some cases old/obsolete
* [http://docs.fedoraproject.org/drafts/rpm-guide-en/ch-creating-rpms.html RPM Guide, section on creating RPMs] - this has lots of good information, and is slightly more up-to-date, but is a draft
* [http://docs.fedoraproject.org/en-US/Fedora_Draft_Documentation/0.1/html/RPM_Guide/ch-creating-rpms.html RPM Guide, section on creating RPMs] - this has lots of good information, and is slightly more up-to-date, but is a draft
* [http://docs.fedoraproject.org/developers-guide/ch-rpm-building.html Developer's guide, section on building RPMs]
* [http://docs.fedoraproject.org/developers-guide/ch-rpm-building.html Developer's guide, section on building RPMs]
* [http://www.gurulabs.com/GURULABS-RPM-LAB/GURULABS-RPM-GUIDE-v1.0.PDF Creating RPMS slides] from Guru Labs
* [http://www.gurulabs.com/GURULABS-RPM-LAB/GURULABS-RPM-GUIDE-v1.0.PDF Creating RPMS slides] from Guru Labs
* [http://freshrpms.net/docs/fight/ The fight, my first attempt to make a readable rpm package building introduction.]
* [http://freshrpms.net/docs/fight/ The fight, my first attempt to make a readable rpm package building introduction.]
* [http://genetikayos.com/code/repos/rpm-tutorial/trunk/rpm-tutorial.html RPM Tutorial (Fullhart)]
* [http://www-uxsup.csx.cam.ac.uk/talks/rpmbuild/rpmbuild.pdf Cambridge RPM tutorial] is a presentation on creating basic RPMs
* [http://www-uxsup.csx.cam.ac.uk/talks/rpmbuild/rpmbuild.pdf Cambridge RPM tutorial] is a presentation on creating basic RPMs
* [http://en.tldp.org/HOWTO/RPM-HOWTO/index.html RPM HOWTO: RPM at Idle by Donnie Barnes]
* [http://en.tldp.org/HOWTO/RPM-HOWTO/index.html RPM HOWTO: RPM at Idle by Donnie Barnes]
* [http://home.fnal.gov/~dawson/rpms/howto/index.html RPM HowTo] by Dawson
* [http://home.fnal.gov/~dawson/rpms/howto/index.html RPM HowTo by Dawson]
* [http://en.opensuse.org/SUSE_Build_Tutorial SuSE build tutorial] - but about SuSE, not Fedora. [http://en.opensuse.org/Build_Service/cross_distribution_package_how_to Cross-distribution package HOWTO] has hints if you're building one RPM for many distributions.
* [http://en.opensuse.org/Build_Service/cross_distribution_package_how_to Cross-distribution package HOWTO] has hints if you're building one RPM for many distributions.
* [http://wiki.mandriva.com/en/Development/Howto/RPM Mandriva Rpm HowTo (en)] ([http://www.mandrivaclub.com/xwiki/bin/view/KB/MandrivaRpmHowTo alt]) is an RPM tutorial, though for Mandriva (nee Mandrake).  Note: In Fedora, do ''not'' recompress original tarballs, as Mandriva suggests, because that would change their cryptographic hashes.
* [http://wiki.mandriva.com/en/Development/Howto/RPM Mandriva Rpm HowTo (en)] is an RPM tutorial, though for Mandriva (nee Mandrake).  Note: In Fedora, do ''not'' recompress original tarballs, as Mandriva suggests, because that would change their cryptographic hashes.
* [http://linuxshellaccount.blogspot.com/2008/03/creating-your-own-linux-rpms-initial.html Creating Your Own Linux RPM's - The Initial Software Build] is another brief intro, but it makes the point that "The process of building RPM's is much simpler than creating packages for Solaris... Fewer steps, and the ability to add all of your software information into one specification file, makes for a much tighter (and easier to modify or reproduce) software packaging system."
* [http://linuxshellaccount.blogspot.com/2008/03/creating-your-own-linux-rpms-initial.html Creating Your Own Linux RPM's - The Initial Software Build] is another brief intro, but it makes the point that "The process of building RPM's is much simpler than creating packages for Solaris... Fewer steps, and the ability to add all of your software information into one specification file, makes for a much tighter (and easier to modify or reproduce) software packaging system."
* [http://fedoranews.org/alex/tutorial/rpm/ All you need to know about RPM] (more about installing packages than creating them)
* [http://fedoranews.org/alex/tutorial/rpm/ All you need to know about RPM] (more about installing packages than creating them)
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[http://lwn.net/Articles/236029/ lwn.net has a brief article] about this.
[http://lwn.net/Articles/236029/ lwn.net has a brief article] about this.


[[Category:Package Maintainers]][[Category:How to]]
[[Category:Package Maintainers]]
[[Category:How to]]

Revision as of 16:07, 14 January 2016

Introduction

This page describes in detail how to create an RPM package, and in particular, how to create a SPEC file. Unlike other RPM guides, this page explains the specifics for Fedora with links to Fedora-specific guidelines. Since it is maintained through the Fedora Wiki, it is likely to be more up-to-date than other guides. Despite the focus on Fedora, most of this document does apply to other RPM-based distributions. If you're impatient, you might start by looking at the shorter How to create a GNU Hello RPM package.

Currently Fedora Documentation has released a draft guide for packagers, see Packagers Guide

Please note that these are NOT the official package guidelines for Fedora, the Packaging Committee handles the rules and guidelines for packaging software in Fedora. The most important ones:

Packaging Guidelines and Package Naming Guidelines are the main ones of Fedora Packaging. Having said that, this page should be compatible with them.

If you plan to create an RPM package for the Fedora repository, follow the procedure depicted in Join the package collection maintainers.

Preparing your system

Before you create RPM packages on Fedora, you need to install some core development tools and set up the account(s) you will use:

# dnf install @development-tools
# dnf install fedora-packager
# dnf install rpmdevtools

You can create a dummy user specifically for creating RPM packages so that a build process gone wrong can't trash your files or send your private keys to the world.

Stop (medium size).png
You should NEVER create your packages as the root user. Building RPM's as root is dangerous, because the binary files are installed on the system before being packaged, thus you must always build as normal user so you won't accidentally pollute your system.

Create a new user named makerpm, add the user to the 'mock' group, set a password, and login as that user:

# /usr/sbin/useradd makerpm
# usermod -a -G mock makerpm
# passwd makerpm

Once you're logged in as the build/dummy user, create the required directory structure in your home directory by executing:

$ rpmdev-setuptree

The rpmdev-setuptree program will create the ~/rpmbuild directory and a set of subdirectories (e.g. SPECS and BUILD), which you will use for creating your packages. The ~/.rpmmacros file is also created, which can be used for setting various options.

The packaging guidelines recommend preserving file timestamps; you can make this automatic if you use wget or curl to get the source files. If you use wget to get source files, add the text "timestamping = on" to ~/.wgetrc. If you use curl, add the text "-R" to ~/.curlrc.

You won't normally need to do these steps again.

The basics of building RPM packages

To create an RPM package, you will need to create a ".spec" text file that provides information about the software being packaged.

You then run the rpmbuild command on the .spec file, which will go through a series of steps to produce your packages.

Normally, you should place your original (pristine) sources, such as .tar.gz files from the original developers, into the ~/rpmbuild/SOURCES directory. Place your .spec file in the ~/rpmbuild/SPECS directory and name it "NAME.spec", where NAME is the base name of the package.

Certain directories have certain purposes in the rpmbuild command, which can be substituted in the .spec file by the following (starting with %) predefined macros:

Macro Name Name Usually Purpose
%_specdir Specification directory ~/rpmbuild/SPECS RPM specifications (.spec) files
%_sourcedir Source directory ~/rpmbuild/SOURCES Pristine source package (e.g. tarballs) and patches
%_builddir Build directory ~/rpmbuild/BUILD Source files are unpacked and compiled in a subdirectory underneath this.
%_buildrootdir Build root directory ~/rpmbuild/BUILDROOT Files are installed under here during the %install stage.
%_rpmdir Binary RPM directory ~/rpmbuild/RPMS Binary RPMs are created and stored under here.
%_srcrpmdir Source RPM directory ~/rpmbuild/SRPMS Source RPMs are created and stored here.


To create both binary and source packages, change directory to ~/rpmbuild/SPECS and run:

$ rpmbuild -ba NAME.spec

When invoked this way, rpmbuild will read the .spec file and go through in order the stages listed below:

Stage Reads Writes Action
%prep %_sourcedir %_builddir This reads the sources and patches in the source directory %_sourcedir. It unpackages the sources to a subdirectory underneath the build directory %_builddir and applies the patches.
%build %_builddir %_builddir This compiles the files underneath the build directory %_builddir. This is often implemented by running some variation of "./configure && make".
%install %_builddir %_buildrootdir This reads the files underneath the build directory %_builddir and writes to a directory underneath the build root directory %_buildrootdir. The files that are written are the files that are supposed to be installed when the binary package is installed by an end-user. Beware of the weird terminology: The build root directory is not the same as the build directory. This is often implemented by running "make install".
%check %_builddir %_builddir Check that the software works properly. This is often implemented by running some variation of "make test". Many packages don't implement this stage.
bin %_buildrootdir %_rpmdir This reads the files underneath the build root directory %_buildrootdir to create binary RPM packages underneath the RPM directory %_rpmdir. Inside the RPM directory is a directory for each architecture, and a "noarch" directory for packages that apply to any architecture. These RPM files are the packages for users to install.
src %_sourcedir %_srcrpmdir This creates a source RPM package (.src.rpm) inside the source RPM directory %_srcrpmdir. These files are needed for reviewing and updating packages.


If a stage fails, look at the output to see why it failed and change the .spec file (or other input) as needed.

Getting ready to package a particular program

If there are special programs that are required to build or run the program you are packaging, install those other programs and write down what they are.

To package a program for the Fedora repository, you must package pristine (original) sources, along with the patches and build instructions; it's not okay to start with pre-compiled code. Install the file with the original source (usually a .tar.gz file) in the ~/rpmbuild/SOURCES directory (of the RPM building user account).

Read through the manual installation instructions for your program. It's often a good idea to do a "dry run" by manually building the program before attempting to do so via RPM. With a few exceptions, all binaries and libraries included in Fedora packages must be built from the source code that is included in the source package.

Split up the program

Application source code is often released with the source code of other external libraries "bundled" into them. Do not bundle external libraries with the main application into a single package. Instead, split them up into separate packages.

Licensing

Only package software that is legal for you to package. See Packaging:Guidelines#Legal, Licensing:Main and Packaging:LicensingGuidelines. In general, only package software that is released as open source software (OSS) using an approved OSS license (such as the GPL, LGPL, BSD-new, MIT/X, or Apache 2.0 licenses). Check to make sure that the software really is licensed this way (e.g. spot-check source code headers, README files etc.). If there are bundled libraries, make sure they are also OSS.

Reuse existing package information

Try to reuse what you can. Obviously, make sure you aren't packaging something that is already packaged. You can find a list of existing packages in Fedora Package Collection in the Fedora Package Database. Also check the In Progress Review Requests and the Retired Packages list. You can use Fedora Packages Git Repositories directly to view SPEC files (and patches). You can download the SRPMS using DNF download Plugin:

$ dnf download --source sourcepackage-name

Alternatively, get the source manually from the http/ftp page of a Fedora mirror within the releases/39/Everything/source/SRPMS directory. Replace "39" with the Fedora release you want and download the .src.rpm package you want.

Once you have the SRPM, install it into ~/rpmbuild:

$ rpm -ivh sourcepackage-name*.src.rpm

You can also unpack the SRPM into a directory using rpm2cpio:

$ mkdir PROGRAMNAME_src_rpm
$ cd PROGRAMNAME_src_rpm
$ rpm2cpio ../PROGRAMNAME-*.src.rpm | cpio -i

Sometimes it's easiest to start with an existing package and then clean it up for Fedora. RPM Find and PKGS.org may help you find RPMs for non-Fedora systems. You can install SRPMS for other systems the same way as for Fedora. Failing that, you might look at the source package files (not binary .deb) for Ubuntu or Debian (source package files are standard tarballs with a "debian/" subdirectory). If the FreeBSD ports collection has it, you could download the FreeBSD ports tarball and see if their packaging information helps as a starting point. However, this is sometimes not helpful at all. Different distributions have different rules, and what they do may be quite inappropriate for Fedora.

Creating a SPEC file

You now need to create a SPEC file in the ~/rpmbuild/SPECS directory. You should name it after the program name (e.g. "program.spec"). Use the archive name or the name advocated by the software author where you can, but be sure to follow the Package Naming Guidelines.

SPEC templates and examples

Templates

When you're creating a SPEC file for the first time, vim or emacs will automatically create a template for you:

 $ cd ~/rpmbuild/SPECS
 $ vim program.spec

Here's an example of what that template will look like (Note: the provided template may not necessarily comply with Fedora Packaging Guidelines):

Name:		
Version:	
Release:	1%{?dist}
Summary:	
Group:		
License:	
URL:		
Source0:	

BuildRequires:	
Requires:	

%description

%prep
%autosetup

%build
%configure
make %{?_smp_mflags}

%install
%make_install

%files
%doc

%changelog


You can use $RPM_BUILD_ROOT instead of %{buildroot}. Both are acceptable, but just be consistent.

You may also use the rpmdev-newspec command to create a SPEC file for you. rpmdev-newspec NAME-OF-NEW-PACKAGE can create an initial SPEC file for a new package, tailored to various types of packages. It will guess what kind of template to use based on the package name, or you can specify a particular template. See /etc/rpmdevtools/spectemplate-*.spec for available templates, and see rpmdev-newspec --help for more information. For example, to create a new SPEC file for a python module:

cd ~/rpmbuild/SPECS
rpmdev-newspec python-antigravity
vi python-antigravity.spec

Examples

eject

Here's a simple example showing a Fedora 16 SPEC file for the eject program:

Summary:            A program that ejects removable media using software control
Name:               eject
Version:            2.1.5
Release:            21%{?dist}
License:            GPLv2+
Group:              System Environment/Base
Source:             %{name}-%{version}.tar.gz
Patch1:             eject-2.1.1-verbose.patch
Patch2:             eject-timeout.patch
Patch3:             eject-2.1.5-opendevice.patch
Patch4:             eject-2.1.5-spaces.patch
Patch5:             eject-2.1.5-lock.patch
Patch6:             eject-2.1.5-umount.patch
URL:                http://www.pobox.com/~tranter
ExcludeArch:        s390 s390x
BuildRequires:      gettext
BuildRequires:      libtool

%description
The eject program allows the user to eject removable media (typically
CD-ROMs, floppy disks or Iomega Jaz or Zip disks) using software
control. Eject can also control some multi-disk CD changers and even
some devices' auto-eject features.

Install eject if you'd like to eject removable media using software
control.

%prep
%autosetup -n %{name}

%build
%configure
make %{?_smp_mflags}

%install
%make_install

install -m 755 -d %{buildroot}/%{_sbindir}
ln -s ../bin/eject %{buildroot}/%{_sbindir}

%find_lang %{name}

%files -f %{name}.lang
%doc README TODO COPYING ChangeLog
%{_bindir}/*
%{_sbindir}/*
%{_mandir}/man1/*

%changelog
* Tue Feb 08 2011 Fedora Release Engineering <rel-eng@lists.fedoraproject.org> - 2.1.5-21
- Rebuilt for https://fedoraproject.org/wiki/Fedora_15_Mass_Rebuild

* Fri Jul 02 2010 Kamil Dudka <kdudka@redhat.com> 2.1.5-20
- handle multi-partition devices with spaces in mount points properly (#608502)

SPEC file overview

Other useful guides:

You will need to follow the Fedora guidelines: Package Naming Guidelines, Packaging guidelines, and Package review guidelines.

Insert comments with a leading "#" character, but avoid macros (beginning with %) that are potentially multiline (as they are expanded first). If commenting out a line, double the percent signs (%%). Also avoid inline comments on the same line as a script command.

The major tags are listed below. Note that the macros %{name}, %{version} and %{release} can be used to refer to the Name, Version and Release tags respectively. When you change the tag, the macros automatically update to use the new value.

  • Name: The (base) name of the package, which should match the SPEC file name. It must follow the Package Naming Guidelines and generally be lowercase.
  • Version: The upstream version number. See Version tag section of the packaging guidelines. If the version contains tags that are non-numeric (contains tags that are not numbers), you may need to include the additional non-numeric characters in the Release tag. If upstream uses full dates to distinguish versions, consider using version numbers of the form yy.mm[dd] (e.g. 2008-05-01 becomes 8.05).
  • Release: The initial value should normally be 1%{?dist}. Increment the number every time you release a new package for the same version of software. When a new upstream version is released, change the Version tag to match and reset the Release number to 1. See Release tag section of the packaging guidelines. The optional Dist tag might be useful.
  • Summary: A brief, one-line summary of the package. Use American English. Do NOT end in a period.
  • Group: This needs to be a pre-existing group, like "Applications/Engineering"; run "less /usr/share/doc/rpm/GROUPS" to see the complete list. Use the group "Documentation" for any sub-packages (e.g. kernel-doc) containing documentation. Note: This tag is deprecated since Fedora 17. See [File Reference Preamble]
  • License: The license, which must be an open source software license. Do not use the old Copyright tag. Use a standard abbreviation (e.g. "GPLv2+") and be specific (e.g. use "GPLv2+" for GPL version 2 or greater instead of just "GPL" or "GPLv2" where it's true). See Licensing and the Licensing Guidelines. You can list multiple licenses by combining them with "and" and "or" (e.g. "GPLv2 and BSD").
  • URL: The full URL for more information about the program (e.g. the project website). Note: This is not where the original source code came from which is meant for the Source0 tag below.
  • Source0: The full URL for the compressed archive containing the (original) pristine source code, as upstream released it. "Source" is synonymous with "Source0". If you give a full URL (and you should), its basename will be used when looking in the SOURCES directory. If possible, embed %{name} and %{version}, so that changes to either will go to the right place. Preserve timestamps when downloading source files. If there is more than one source, name them Source1, Source2 and so on. If you're adding whole new files in addition to the pristine sources, list them as sources after the pristine sources. A copy of each of these sources will be included in any SRPM you create, unless you specifically direct otherwise. See Source URL for more information on special cases (e.g. revision control).
  • Patch0: The name of the first patch to apply to the source code. If you need to patch the files after they've been uncompressed, you should edit the files and save their differences as a "patch" file in your ~/rpmbuild/SOURCES directory. Patches should make only one logical change each, so it's quite possible to have multiple patch files.
  • BuildArch: If you're packaging files that are architecture-independent (e.g. shell scripts, data files), then add "BuildArch: noarch". The architecture for the binary RPM will then be "noarch".
  • BuildRoot: This is where files will be "installed" during the %install process (after the %build process). This is now redundant in Fedora and is only needed for EPEL5. By default, the build root is placed in "%{_topdir}/BUILDROOT/".
  • BuildRequires: A comma-separated list of packages required for building (compiling) the program. This field can be (and is commonly) repeated on multiple lines. These dependencies are not automatically determined, so you need to include everything needed to build the program. Some common packages can be omitted, such as gcc. You can specify a minimum version if necessary (e.g. "ocaml >= 3.08"). If you need the file /EGGS, determine the package that owns it by running "rpm -qf /EGGS". If you need the program EGGS, determine the package that owns it by running "rpm -qf which EGGS". Keep dependencies to a minimum (e.g. use sed instead of perl if you don't really need perl's abilities), but beware that some applications permanently disable functions if the associated dependency is not present; in those cases you may need to include the additional packages. The Package-x-generic-16.pngauto-buildrequires package may be helpful.
  • Requires: A comma-separate list of packages that are required when the program is installed. Note that the BuildRequires tag lists what is required to build the binary RPM, while the Requires tag lists what is required when installing/running the program; a package may be in one list or in both. In many cases, rpmbuild automatically detects dependencies so the Requires tag is not always necessary. However, you may wish to highlight some specific packages as being required, or they may not be automatically detected.
  • %description: A longer, multi-line description of the program. Use American English. All lines must be 80 characters or less. Blank lines indicate a new paragraph. Some graphical user interface installation programs will reformat paragraphs; lines that start with whitespace will be treated as preformatted text and displayed as is, normally with a fixed-width font. See RPM Guide.
  • %prep: Script commands to "prepare" the program (e.g. to uncompress it) so that it will be ready for building. Typically this is just "%autosetup"; a common variation is "%autosetup -n NAME" if the source file unpacks into NAME. See the %prep section below for more.
  • %build: Script commands to "build" the program (e.g. to compile it) and get it ready for installing. The program should come with instructions on how to do this. See the %build section below for more.
  • %install: Script commands to "install" the program. The commands should copy the files from the BUILD directory %{_builddir} into the buildroot directory, %{buildroot}. See the %install section below for more.
  • %check: Script commands to "test" the program. This is run after the %install procedure, so place it there if you have this section. Often it simply contains "make test" or "make check". This is separated from %build so that people can skip the self-test if they desire.
  • %clean: Instructions to clean out the build root. Note that this section is now redundant in Fedora and is only necessary for EPEL. Typically this contains only:
rm -rf %{buildroot}
  • %files: The list of files that will be installed. See the %files section below for more.
  • %changelog: Changes in the package. Use the format example above. Do NOT put software's changelog at here.This changelog is for RPM itself.
  • ExcludeArch: If the package does not successfully compile, build or work on a particular architecture, list those architectures under this tag.
  • You can add sections so that code will run when packages are installed or removed on the real system (as opposed to just running the %install script, which only does a pseudo-install to the build root). These are called "scriptlets", and they are usually used to update the running system with information from the package. See the "Scriptlets" section below for more.

RPM also supports the creation of several packages (called subpackages) from a single SPEC file, such as name-libs and name-devel packages.

Stop (medium size).png
Do NOT use these tags
  • Packager
  • Vendor
  • Copyright

Do not create a "relocatable" package; they don't add value in Fedora and make things more complicated.

SPEC file sections explained

%prep section

The %prep section describes how to unpack the compressed packages so that they can be built. Typically, this includes the "%autosetup" command. Alternatively, you can use "%setup" and "%patch" commands with reference to the Source0 (and Source1 etc.) lines. See the Maximum RPM section on %setup and %patch for more details.

The %{patches} and %{sources} macros are available since RPM 4.4.2 and are useful if you have a large list of patches or sources and %autosetup is not what you want, then you can do:

for p in %{patches}; do
    ...
done

However, keep in mind that using these will make your SPEC incompatible with RPMS used in RHEL and other RPM-based dirstributions.

%prep section: %autosetup command

The "%autosetup" command unpacks a source package. Switches include:

  • -n name : If the Source tarball unpacks into a directory whose name is not the RPM name, this switch can be used to specify the correct directory name. For example, if the tarball unpacks into the directory FOO, use "%autosetup -n FOO".
  • -c name : If the Source tarball unpacks into multiple directories instead of a single directory, this switch can be used to create a directory named name and then unpack into it.

If you use "%setup" command instead, then -q' is commonly used to suppress unecessary output.

There are more %setup options if you are unpacking multiple files, which is primarily useful if you are creating subpackages (see below). The key ones are:

-a number Only unpack the Source directive of the given number after changing directory (e.g. "–a 0" for Source0).
-b number Only unpack the Source directive of the given number before changing directory (e.g. "–b 0" for Source0).
-D Do not delete the directory before unpacking.
-T Disable the automatic unpacking of the archives.

%prep section: %patch commands

If you have used "%autosetup" command, the following manual patch management is not necessary. If you have complex requirements or need compatibility with EPEL, you may still need this. The "%patch0" command applies Patch0 (and %patch1 applies Patch1 etc.). Patches are the normal method of making necessary changes to the source code for packaging. The usual "-pNUMBER" option applies, which passes that argument onto the program patch.

Patch file names often look like "telnet-0.17-env.patch", which is the format %{name} - %{version} - REASON.patch" (though sometimes version is omitted). Patch files are typically the result of "diff -u"; if you do this from the subdirectory of ~/rpmbuild/BUILD then you won't have to specify a -p level later.

This is a typical procedure for creating a patch for a single file:

cp foo/bar foo/bar.orig
vim foo/bar
diff -u foo/bar.orig foo/bar > ~/rpmbuild/SOURCES/PKGNAME.REASON.patch

If editing many files, one easy method is to copy the whole subdirectory underneath BUILD and then do subdirectory diffs. After you have changed directory to "~rpmbuild/BUILD/NAME", do the following:

cp -pr ./ ../PACKAGENAME.orig/
... many edits ...
diff -ur ../PACKAGENAME.orig . > ~/rpmbuild/SOURCES/NAME.REASON.patch

If you edit many files in one patch, you can also copy the original files using some consistent ending such as ".orig" before editing them. Then, you can use "gendiff" (in the rpm-build package) to create a patch with the differences.

Try to ensure that your patch match the context exactly. The default "fuzz" value is "0", requiring matches to be exact. You can work around this by adding "%global _default_patch_fuzz 2" to revert to the value found in older versions of RPM in Fedora, but it is generally recommended to avoid doing this.

As explained in Packaging/PatchUpstreamStatus, all patches should have a comment above them in the SPEC file about their upstream status. This should document the upstream bug/email that includes it (including the date). If it is unique to Fedora, you should mention why it is unique. The Fedora Project tries not to deviate from upstream; see PackageMaintainers/WhyUpstream for the importance of this.

%prep section: Unmodified files

Sometimes, one or more of the Source files do not need to be uncompressed. You can "prep" those into the build directory like this (where SOURCE1 refers to the relevant Source file):

cp -p %SOURCE1 .

%build section

The "%build" section is sometimes complicated; here you configure and compile/build the files to be installed.

Many programs follow the GNU configure approach (or some variation). By default, they will install to a prefix of "/usr/local", which is reasonable for unpackaged files. However, since you are packaging it, change the prefix to "/usr". Libraries should be installed to either /usr/lib or /usr/lib64 depending on the architecture.

Since GNU configure is so common, the macro "%configure" can be used to automatically invoke the correct options (e.g. change the prefix to /usr). Some variation of this often works:

 %configure
 make %{?_smp_mflags}

To override makefile variables, pass them as parameters to make:

make %{?_smp_mflags} CFLAGS="%{optflags}" BINDIR=%{_bindir}

More more information, see "GNU autoconf, automake, and libtool" and "Open Source Development Tools: An Introduction to Make, Configure, Automake, Autoconf" by Stefan Hundhammer. (Link is broken)

Some programs use cmake. See Packaging/cmake.

%install section

This section involves script commands to "install" the program, copying the relevant files from %{_builddir} to %{buildroot} (which usually means from ~/rpmbuild/BUILD to ~/rpmbuild/BUILDROOT) and creating directories inside %{buildroot} as necessary.

Some of the terminology can be misleading:

  • The "build directory", also known as %{_builddir} is not the same as the "build root", also known as %{buildroot}. Compilation occurs in the former directory, while files to be packaged are copied from the former to the latter.
  • During the %build section, the current directory will start at %{buildsubdir}, which is the subdirectory within %{_builddir} that was created during %prep stage. This is usually something like ~/rpmbuild/BUILD/%{name}-%{version}.
  • The %install section is not run when the binary RPM package is installed by the end-user, but is only run when creating a package.

Normally, some variation of "make install" is performed here:

%install
rm -rf %{buildroot} # redundant except for RHEL 5
%make_install

Ideally you should use %make_install which is equivalent to DESTDIR=%{buildroot} if the program supports it, as it redirects file installations to the specified directory and is exactly what we want to happen during the %install section.

If the program does not support DESTDIR (and only if), you can workaround it in one of several (inferior) ways:

  • Patch the makefile so that is supports DESTDIR. Create directories inside DESTDIR where necessary and submit the patch upstream.
  • Use the "%makeinstall" macro. This method might work, but can lead to subtle failures. It expands to something like "make prefix=%{buildroot}%{_prefix} bindir=%{buildroot}%{_bindir} ... install", which can result in some programs failing to work properly. Create directories inside %{buildroot} where necessary.
  • Consider using the auto-destdir package. This requires "BuildRequires: auto-destdir", and changing "make install" to "make-redir DESTDIR=%{buildroot} install". This only works well if the installation uses only certain common commands to install files, like cp and install.
  • Perform the installation by hand. This would involve creating the necessary directories under %{buildroot} and copying files from %{_builddir} to %{buildroot}. Be especially careful with updates, which often contain new or changed filenames. An example of this procedure:
%install
rm -rf %{buildroot}
mkdir -p %{buildroot}%{_bindir}/
cp -p mycommand %{buildroot}%{_bindir}/

%check section

If self-tests are available, it is generally a good idea to include them. They should be placed in the %check section (which immediately follows the %install section, since files in %buildroot may be tested) instead of within the %build section itself, so that they can be easily skipped when necessary.

Often, this section contains:

make test

Sometimes it can be:

make check

Please explore the Makefile and choose the appropriate way.

%files section

This section declares which files and directories are owned by the package, and thus which files and directories will be placed into the binary RPM.

%files basics

The %defattr sets the default file permissions, and is often found at the start of the %files section. Note that this is no longer necessary unless the permissions need to be altered. The format of this is:

%defattr(<file permissions>, <user>, <group>, <directory permissions>)

The fourth parameter is often omitted. Usually one uses %defattr(-,root,root,-), where "-" uses the default permissions.

You should then list all the files and directories to be owned by the package. Use macros for directory names where possible, which can be viewed at Packaging:RPMMacros (e.g. use %{_bindir}/mycommand instead of /usr/bin/mycommand). If the pattern begins with a "/" (or when expanded from the macro) then it is taken from the %{buildroot} directory. Otherwise, the file is presumed to be in the current directory (e.g. inside %{_builddir}, such as documentation files that you wish to include). If your package only installs a single file /usr/sbin/mycommand, then the %files section can simply be:

%files
%{_sbindir}/mycommand

To make your package less sensitive to upstream changes, declare all files within a directory to be owned by the package with a pattern match:

%{_bindir}/*

To include a single directory:

%{_datadir}/%{name}/

Note that %{_bindir}/* does not claim that this package owns the /usr/bin directory, but only the files contained within. If you list a directory, then you are claiming that the package owns that directory and all files and subdirectories contained within. Thus, do not list %{_bindir} and be careful of directories that may be shared with other packages.

An error will occur if:

  • a pattern match does not match any file or directory
  • a file or directory is listed or matched more than once
  • a file or directory in the %{buildroot} has not been listed

It is also possible to exclude files from a previous match by using the %exclude glob. This can be useful for including almost all of the files included by a different pattern match, but note that it will also fail if it does not match anything.

%files prefixes

You may need to add one or more prefixes to lines in the %files section; seperate them with a space. See Max RPM section on %files directives.

Usually, "%doc" is used to list documentation files within %{_builddir} that were not copied to %{buildroot}. A README and INSTALL file is usually included. They will be placed in an appropriate directory under /usr/share/doc, whose ownership does not need to be declared.

Note: If specifying a %doc entry, rpmbuild < 4.9.1 removes the doc directory it installs files into before installing them. This means that files already in it, for example installed in the %install section, are removed and do not end up in the package. If you want to install some files in the %install section, install them into a temporary staging directory inside the build dir (not build root), for example _docs_staging, and include them in the in the %files list like %doc _docs_staging/*.

Configuration files should be placed in /etc and are normally specified like this (which makes sure user changes aren't overwritten on update):

%config(noreplace) %{_sysconfdir}/foo.conf

If the update uses a non-backwards-compatible configuration format, then specify them like this:

%config %{_sysconfdir}/foo.conf

"%attr(mode, user, group)" can be used for finer control over permissions, where a "-" means use the default:

%attr(0644, root, root) FOO.BAR

"%caps(capabilities)" can be used to give a file certain POSIX capabilities. For example:

%caps(cap_net_admin=pe) FOO.BAR

If a file is in particular natural language, use %lang to note that:

%lang(de) %{_datadir}/locale/de/LC_MESSAGES/tcsh*

Programs using Locale files should follow the recommended method of handling i18n files:

  • find the filenames in the %install step: %find_lang ${name}
  • add the required build dependencies: BuildRequires: gettext
  • use the found filenames: %files -f ${name}.lang

The %readme prefix is not valid in Fedora.

%files and Filesystem Hierarchy Standard (FHS)

You should follow the Filesystem Hierarchy Standard (FHS). Executables go in /usr/bin, global configuration files go in /etc, libraries go into /usr/lib (or /usr/lib64) and so on. There is one exception: executables that should not normally be executed directly by users or administrators should go in a subdirectory of /usr/libexec, which is referred to as %{_libexecdir}/%{name}.

Do not install files into /opt or /usr/local.

Unfortunately, many programs do not follow the FHS by default. In particular, architecture-independent libraries get placed in /usr/lib instead of /usr/share. The former is for architecture-dependent libraries, while the latter is for architecture-independent libraries, which means that systems with different CPU architectures can share /usr/share. There are many exceptions in Fedora (such as Python and Perl), but Fedora applies this rule more strictly than some distributions. rpmlint will generally complain if you put anything other than ELF files into /usr/lib.

%files example

Here's a simple example of a %files section:

%files
%doc README
%license LICENSE COPYING
%{_bindir}/*
%{_sbindir}/*
%{_datadir}/%{name}/
%config(noreplace) %{_sysconfdir}/*.conf

Finding duplicates

You can list any duplicates of two binary packages by doing:

cd ~/rpmbuild/RPMS/ARCH # Substitute "ARCH" for your architecture
rpm -qlp PACKAGE1.*.rpm | sort > ,1
rpm -qlp PACKAGE2.*.rpm | sort > ,2
comm -12 ,1 ,2

Scriptlets

When an end-user installs the RPM, you may want some commands to be run. This can be achieved through scriptlets. See Packaging/ScriptletSnippets.

Scriptlets can be run:

  • before (%pre) or after (%post) a package is installed
  • before (%preun) or after (%postun) a package is uninstalled
  • at the start (%pretrans) or end (%posttrans) of a transaction

For example, every binary RPM package that stores shared library files in any of the dynamic linker's default paths, must call ldconfig in %post and %postun. If the package has multiple subpackages with libraries, each subpackage should also perform the same actions.

%post -p /sbin/ldconfig
%postun -p /sbin/ldconfig

If only running a single command, then the "-p" option runs the adjacent command without invoking the shell. However, for several commands, omit this option and include the shell commands beneath.

If you run any programs within the scriptlets, then you must specify any requirements in the form "Requires(CONTEXT)" (e.g. Requires(post)).

%pre, %post, %preun, and %postun provide the argument $1, which is the number of packages of this name which will be left on the system when the action completes. Don't compare for equality with 2, but instead check if they are greater than or equal to 2. For %pretrans and %posttrans, $1 is always 0.

For example, if the package installs an info manual, then the info manual index must be updated with install-info from the info package. Firstly, there is no guarantee that the info package will be available unless we explicitly declare it as required, and secondly, we don't want to fail completely if install-info fails:

Requires(post): info
Requires(preun): info
...
%post
/sbin/install-info %{_infodir}/%{name}.info %{_infodir}/dir || :
%preun
if [ $1 = 0 ] ; then
/sbin/install-info --delete %{_infodir}/%{name}.info %{_infodir}/dir || :
fi

There is one other glitch related to installing info manuals. The install-info command will update the info directory, so we should delete the useless empty directory from the %{buildroot} during the %install section:

rm -f %{buildroot}%{_infodir}/dir

Another scriptlet-like ability are "triggers", which can be run for your package when other packages are installed or uninstalled. See RPM Triggers.

Macros

Macros are text in the format %{string}. Typical macros:

Macro Typical Expansion Meaning
%{_bindir} /usr/bin Binary directory: where executables are usually stored.
%{_builddir} ~/rpmbuild/BUILD Build directory: files are compiled within a subdirectory of the build directory. See %buildsubdir.
%{buildroot} ~/rpmbuild/BUILDROOT Build root: where files are "installed" during the %install stage, which copies files from a subdirectory of %{_builddir} to a subdirectory of %{buildroot}. (Historically, %{buildroot} was in "/var/tmp/".)
%{buildsubdir} %{_builddir}/%{name} Build subdirectory: a subdirectory within %{_builddir} where files are compiled during the %build stage. It is set after %autosetup.
%{_datadir} /usr/share Share directory.
%{_defaultdocdir} /usr/share/doc Default documentation directory.
%{dist} .fcNUMBER Distribution+version short name (e.g. ".fc39")
%{fedora} NUMBER Number of fedora release (e.g. "39")
%{_includedir} /usr/include
%{_infodir} /usr/share/info
%{_initrddir} /etc/rc.d/init.d
%{_libdir} /usr/lib
%{_libexecdir} /usr/libexec
%{_localstatedir} /var
%{_mandir} /usr/share/man
%{name} Name of package, set by Name: tag
%{_sbindir} /usr/sbin
%{_sharedstatedir} /var/lib
%{_sysconfdir} /etc
%{version} Version of package, set by Version: tag

Learn more about macros by looking in /etc/rpm/* and /usr/lib/rpm, especially /usr/lib/rpm/macros. Also use rpm --showrc to show values that RPM will use for macros (altered by rpmrc and macro configuration files).

You can set your own macro values using %global, but be sure to define them before you use them. (Macro definitions can also refer to other macros.) For example:

%global date 2012-02-08

Use the "-E" option of rpmbuild to find the value of a macro in a SPEC file:

rpmbuild -E '%{_bindir}' myfile.spec

Also see Packaging/RPMMacros and RPM Guide chapter 9.

Other tags

In addition to Requires and BuildRequires tags, you can also use these for controlling dependencies:

  • Provides: list virtual package names that this package provides. For example, there might be a package "foo" that demands a particular functionality "bar" from another program. If there are several packages that can satisfy that demand, those packages can specify "Provides: bar" and the "foo" package can specify "Requires: bar". You could also use the "alternatives" system, but avoid if multiple users on the same system might want different default, as these settings are system-wide. Use "rpm -q --provides PACKAGENAME" to see what a given package provides. Some examples of virtual packages in Fedora:
    • MTA: Used for mail transport agents, such as sendmail.
    • tex(latex): Used for latex
  • Obsoletes: remove another named package(s) when this package is installed. Use when the package name changes or when it totally replaces a different package.
  • Conflicts: state what other packages cannot be installed simultaneously to this one. Avoid this if you can. See Packaging/Conflicts.
  • BuildConflicts: state what packages cannot be installed when building this package. Avoid this if you can.

To manage different architectures, there are two tags:

  • ExcludeArch: to exclude an architecture on which the package doesn't build. For example:
ExcludeArch: ppc
  • ExclusiveArch: to include only the specified architecture. Avoid this unless absolutely correct.

Valid architectures are listed at Architectures.

Subpackages

A SPEC file can define several binary package. In other words, one SRPM with one SPEC file can result in several RPMS. Note that there is still only one creation (%prep, %build, %install etc.) process. name-doc and name-devel subpackages are common for documentation and development files respectively.

Use the %package directive to start defining a subpackage:

%package subpackage_name

After each %package directive, list the tags for the subpackage. This should at least include the Summary and Group tags, as well as the %description subpackage_name and %files subpackage_name directives:

Anything not specified by the subpackage will be inherited from its parent.

By default, if the package name is "foo" and the subpackage name is "bar", then the resulting subpackage will be "foo-bar". You can override it with the "-n" option (but you'll need to use it in all other directives too if you specify it here):

%package -n new_subpackage_name

See the RPM Guide section on subpackages for more information.

Conditionals

You can insert conditional statements, for example to test if you are creating a binary for a certain architecture:

%ifarch ARCHITECTURE_NAME

the negated version with:

%ifnarch ARCHITECTURE_NAME

or the more general conditional:

%if TRUE_OR_FALSE

There is an optional "%else" section; all of these are closed with "%endif".

Application Specific Guidelines

There are many application-specific guidelines that can help you (e.g., for specific programming languages, applications, libraries, and build systems). Many of them are listed as part of the Application Specific Guidelines of Packaging/Guidelines. Examples of application-specific guidelines are those for:

Failing that, some other ways of finding application-specific help are:

Miscellaneous hints

Packaging/FrequentlyMadeMistakes has information on frequently-made mistakes. There are also some recommendations and controversial tricks on PackageMaintainers/Packaging Tricks.

Try to write your SPEC files so that it is likely to work when a new release is made upstream, without any changes aside from bumping the version number and refreshing the source files. For example, if it contains *.txt files with execute bits, instead of doing

 chmod a-x Filename1.txt Filename2.txt Filename3.txt

consider doing this, which will handle new filenames that use the same file naming convention:

 chmod a-x *.txt

If you want to see lots of examples of scriptlets, you can show all the scriptlets on installed programs using:

 rpm -qa --queryformat "\n\nPACKAGE: %{name}\n" --scripts | less

Don't try to interact with the user; RPM is designed to support batch installs. If an application needs to show a EULA, that needs to be part of its initial execution, not its installation.

You might not want to start services, because in a big install that could slow things down. If you install an init or systemd script, consider using chkconfig or systemctl to arrange for the service to be started/stopped on the next reboot. Before uninstalling, you should normally try to stop its services if they are running.

Uninstalling should reverse most changes made during installation, but don't remove any user-created files.

Normally, if there are binary executables, then debugging symbols are stripped from the normal binary packages and placed into a name-debug subpackage. If this shouldn't happen, you can disable the stripping and creation of this subpackage by putting this at the top of your SPEC:

%global _enable_debug_package 0
%global debug_package %{nil}
%global __os_install_post /usr/lib/rpm/brp-compress %{nil}

To prevent stripping you may also need to do this in the %install section:

export DONT_STRIP=1

A way to check for the version of Fedora in a SPEC file for conditional builds is:

%if 0%{?fedora} <= <version>

The ? causes the macro to evaluate to evaluate to blank if %fedora is not defined. This causes the end result to be the 0 (which is a number and thus fine), while not interfering with the result if there is actually a value for %fedora. (Note that this trick does not work in Koji "scratch" builds, where %fedora is set during the creation of a SRPM.)

GUI programs must have a desktop entry so that people can invoke it from the graphical desktop menu. For .desktop files, see Fedora packaging guidelines for desktop files and desktop entry spec. For icons within /usr/share/icons, see icon theme spec.

Building the binary package

Test with rpmlint

To catch many common errors early, run rpmlint on your SPEC file before trying to build anything from it:

$ rpmlint program.spec

If the reported error doesn't make sense, run it again with the "-i" option for longer messages.

Aim to have no errors, but sometimes rpmlint reports false positives. The Fedora packaging guidelines explains which ones to ignore.

Create binary RPMS from the SPEC file

Once you've created your SPEC file, build the SRPM and binary RPMS by running this:

$ rpmbuild -ba program.spec

If successful, RPMS will be created within ~/rpmbuild/RPMS and SRPMS will be created within ~/rpmbuild/SRPMS.

If it fails, go to the appropriate directory and see what is left over. To help debug, you can skip earlier stages that succeeded with the "--short-circuit" option. For example, to restart at the %install stage (skipping earlier stages), do this:

$ rpmbuild -bi --short-circuit program.spec

If you just want to create an SRPM (which does not run the %prep or %build or other stages), run this:

rpmbuild -bs program.spec

Testing binary RPMS with rpmlint

rpmlint can be run on SPEC files, RPMS and SRPMS to check for errors. You need to eliminate or justify warnings before posting a package. This page offers explanations for some of the common issues that come up. If you are in the SPECS directory, do this:

$ rpmlint NAME.spec ../RPMS/*/NAME*.rpm ../SRPMS/NAME*.rpm

Enter the ~/rpmbuild/RPMS directory and into the architecture subdirectory. You will find some binary RPMS. Quickly see their files and permissions (to check whether they are correct) by doing:

$ rpmls *.rpm

If they look fine, install them as root:

# rpm -ivp package1.rpm package2.rpm package3.rpm ...

Test the programs in a few different ways to see if everything works correctly. If it is a GUI tool, make sure it shows up in the desktop menu, otherwise the .desktop entry is wrong.

Uninstall packages later by doing:

# rpm -e package1 package2 package3

Mock and Koji

Mock is a powerful tool that uses the SRPM you have created to build binary packages within a nearly empty environment. This can reveal if you have accurate build dependencies. If it fails, then you forgot to list something in BuildRequires. See Using Mock to test package builds. Once your account is a member of the "mock" group, you can run commands like this to do local testing:

$ mock -r fedora-9-i386 rebuild path_to_source_RPM

You can use Koji (which uses mock) to do builds on many different systems, some of which you may not have. PackageMaintainers/Join and PackageMaintainers/UsingKoji have more information about Koji. Once it's set up, you can test your SRPM on a variety of platforms by running commands like:

$ koji build --scratch dist-f9 path_to_source_RPM

Replace dist-f9 with any later release of Fedora, but don't use dist-rawhide. Remember, the values of %fedora, %fc9 and so on will not be correct for a scratch build, so this won't work if your SPEC file does something different based on those values.

Your Koji builds can only depend on packages that are actually in the TARGET distribution repository. Thus, you can't use Koji to build for released distributions if your package depends on other new packages that Bodhi hasn't released yet. If you need to build against a package that is not yet a stable released update, submit a Koji buildroot override request via Bodhi. If it's not your own package you depend on, contact its maintainer(s). [Before Bodhi could handle Koji buildroot override requests, the old method has been to file a ticket with rel-eng at: https://fedorahosted.org/rel-eng/newticket and request that that package be added as a buildroot override.]

Helpful tools

The rpmdevtools package has a number of helpful tools; "rpm -qil rpmdevtools" will show you what it installs.

  • rpmdev-bumpspec : bump the release tag in the spec file and add a changelog comment with the right date and version format:
rpmdev-bumpspec --comment=COMMENT --userstring=NAME+EMAIL_STRING SPECFILES

DNF download plugin (from core DNF plugins) is also useful:

  • dnf download : download the SRPM of the package by running:
dnf download --source PACKAGENAME

The auto-buildrequires package has a pair of nice tools for helping to figure out the proper BuildRequires entries. After installing this package, replace "rpmbuild" with "auto-br-rpmbuild" and you'll see an automatically generated BuildRequires list.

You might find RUST useful (GPL), though it does not create SPEC files of suitable quality for Fedora packages. Alien converts between package formats. It won't produce clean SRPMS, but converting an existing package might provide helpful information.

If you are thinking about packing your rpm for Fedora, be sure you run your packages through Fedora Review, which helps ensure that you comply to the Packaging Guideline.

Finally, docker-rpm-builder (APL 2.0) uses Docker to build RPM packages; while using rpmbuild requires building on the same host distro as the target, and mock works fine on Fedora/Centos/RHEL distributions for any target, this last tool works fine whenever Docker can run.

If you want to build your package for diferent distribution and architectures and to have publicly accesible dnf repository, you can submit your src.rpm to Copr.

If you need to sign your new package, use rpmsign tool from rpm-sign package.

Guidelines and rules

When you create your packages, you'll need to follow the following rules and guidelines:

There are many official guidelines that will help you with specific circumstances (e.g. Java programs, OCaml programs, GNOME programs). You can also learn more from the SIGs and Package Maintainers sections.

You can also see the list of all Wiki pages about Packaging to see if any apply.

Failing that, you might find some useful recommendations in the unofficial Packaging Drafts and Packaging Drafts To Do.

You might find ideas from SuSE, Debian, but distributions differ in their rules, so do not presume they can be used directly.

The .spec files that you create must be open source software, as noted in the FPCA.

Maintaining the package

Once your package has been accepted, you and your co-maintainers will need to maintain it. See Package update HOWTO and Package update guidelines. If you update the version in multiple releases of Fedora, do it backwards in time (e.g. release for Fedora N, then once that's accepted, Fedora N-1). The system presumes that later versions of Fedora have the same or later versions of programs.

Encourage the upstream developers to use standard source code release conventions. Using standard conventions makes packaging much easier. For more information, see:

For more information

The Package Maintainers page links to many other useful pages, and the Package update HOWTO describes how to update an existing package you already maintain in Fedora.

For more information, outside of the Fedora Wiki, see:

Note: The rpm5.org site has some documentation, but do not depend on it; that is the home of a fork of RPM maintained by Jeff Johnson. The RPM used by Fedora (and Novell/SuSE) is instead based at rpm.org. lwn.net has a brief article about this.