<!-- -*- mode: sgml; mode: fold -*- -->
<!doctype refentry PUBLIC "-//OASIS//DTD DocBook V3.1//EN" [

<!ENTITY % aptent SYSTEM "apt.ent">
%aptent;

]>

<refentry>
 &apt-docinfo;
 
 <refmeta>
   <refentrytitle>apt_preferences</>
   <manvolnum>5</>
 </refmeta>
 
 <!-- Man page title -->
 <refnamediv>
    <refname>apt_preferences</>
    <refpurpose>Preference control file for APT</>
 </refnamediv>
 
 <RefSect1><Title>Description</>
   <para>
   The APT preferences file controls various aspects of the APT system. 
   It is ment to be user editable and manipulatable from software. The file
   consists of a number of records formed like the dpkg status file, space
   seperated sections of text with at the start of each line tags seperated 
   by a colon. It is stored in <filename>/etc/apt/preferences</>.
 </RefSect1>

 <RefSect1><Title>Versioning</>
   <para>
   One purpose of the preferences file is to let the user select which version
   of a package will be installed. This selection can be made in a number of
   ways that fall into three categories, version, release and origin.   
   <para>
   Selection by version can be done by exact match or prefix match. The format
   is <literal/2.1.2/ or <literal/2.2*/ for a prefix match. Matching by prefix 
   can be used to ignore the <literal/r/ in the Debian release versioning, like
   <literal/2.1r*/ or to ignore Debian specific revisions, <literal/1.1-*/.
   When matching versions with a prefix the highest matching version will
   always be picked.
   <para>
   Selection by release is more complicated and has three forms. The primary
   purpose of release selections is to identify a set of packages that match
   a specific vendor, or release (ie Debian 2.1). The first two forms are 
   shortcuts intended for quick command line use. If the first character of the
   specification is a digit then it is considered to be a release version match, 
   otherwise a release label match. Specifications which contain equals are
   full release data matches and are a comma seperated list of one letter keys
   followed by an equals then by the string. Examples:
<informalexample><programlisting>
v=2.1*,o=Debian,c=main
l=Debian
a=stable
</programlisting></informalexample>   
   <para>
   The data for these matches are taken from the <filename/Release/ files
   that APT downloads during an <literal/update/. The available keys are:
   <VariableList>
     <VarListEntry><term>a= Archive</term>
     <ListItem><Para>
     This is the common name we give our archives, such as <literal/stable/ or
     <literal/unstable/. The special name <literal/now/ is used to designate
     the set of packages that are currently installed.
     </VarListEntry>
     
     <VarListEntry><term>c= Component</term>
     <ListItem><Para>
     Referes to the sub-component of the archive, <literal/main/, 
     <literal/contrib/ etc. Component may be omitted if there are no 
     components for this archive.
     </VarListEntry>
     
     <VarListEntry><term>v= Version</term>
     <ListItem><Para>
     This is a version string with the same properties as in the Packages file.
     It represents the release level of the archive. Typical Debian release
     numbers look like <literal/2.1r2/ with the r designating the release of 
     2.1. New releases are limited to security updates.
     </VarListEntry>

     <VarListEntry><term>o= Origin</term>
     <ListItem><Para>
     This specifies who is providing this archive. In the case of Debian the
     string will read <literal/Debian/. Other providers may use their own 
     string.
     </VarListEntry>

     <VarListEntry><term><term>l= Label</term>
     <ListItem><Para>
     This carries the encompassing name of the distribution. For Debian proper
     this field reads <literal/Debian/. For derived distributions it should 
     contain their proper name.
     </VarListEntry>
   </VariableList>   
   <para>
   The final selection method is by origin. This is simply the site name
   of the originating package files. The empty string is used for file URIs.
   <para>
   Version selection, particularly the latter two methods, are used in many
   different parts of APT, not just the preferences file.
 </RefSect1>
 
 <RefSect1><Title>Candidate Version Policy</>
   <para>
   Internally APT maintains a list of all available versions for all packages.
   If you place multiple releases or vendors in your &sources-list; file then
   these features are available. By default APT selects the highest version
   from all automatic sources. Some sources, such as 
   <filename>project/experimental</> are marked Not Automatic - these fall 
   to the bottom of the selection pile.
   <para>
   When deciding what version to use APT assigns a priority to each available
   version of the package. It then does two things, first it selects
   the highest priorty version that is newer than the installed version of the 
   package, then it selects the highest priority version that is older than
   the installed version. Next, if the older versions have a priority greater
   than 1000 they are compared with the priority of the upgrade set, the larger
   becomes the selected result. Otherwise the downgrade versions are ignored
   and the highest priority of the ugprade set is selected.
   <para>
   It is possible to think of the priorities in strata:
   <VariableList>
     <VarListEntry><term>1000 and up</term>
     <ListItem><Para>
     Downgradable priorities
     </VarListEntry>
     
     <VarListEntry><term>1000</term>
     <ListItem><Para>
     The downgrade prevention barrier
     </VarListEntry>
     
     <VarListEntry><term>100 to 1000</term>
     <ListItem><Para>
     Standard priorities. 990 is the priority set by the 
     <option/--target-release / &apt-get; option. 989 is the start for auto
     priorities and 500 are all the default package files.
     </VarListEntry>
     
     <VarListEntry><term>100</term>
     <ListItem><Para>
     The currently installed version
     </VarListEntry>

     <VarListEntry><term>0 to 100</term>
     <ListItem><Para>
     Non automatic priorities. These are only used if the package
     is not installed and there is no other version available.
     </VarListEntry>

     <VarListEntry><term>less than 0</term>
     <ListItem><Para>
     The version is never selected.
     </VarListEntry>
   </VariableList>   
   <para>
   Giving a pin a priority greater than 1000 will allow APT to downgrade
   in order to get to that version.   
   <para>
   Each package may be pinned to a specific version and each Packages file
   has a priority for every package inside. The highest priority assigned
   to a package is the one that is used.
   <para>
   A package pin looks like this:
<informalexample><programlisting>
Package: apt
Pin: version 0.4.0
Pin-Priority: 1001
</programlisting></informalexample>   
   The first line specifies the package, the second gives the Pin specification
   and the last gives the priority of this pin. The first word of the pin
   specification may be version, release or origin, the remainder of the field
   is described in the Versioning section above.
   <para>
   A default pin is how the priorities of package files are set. Any number
   of default pins may be specified, the first matching default will select
   the priority of the package file. Only release or origin may be used in 
   the Pin specification since they match Packages files.
<informalexample><programlisting>
Package: *
Pin: release v=2.1*
Pin-Priority: 998
</programlisting></informalexample>
   <para>
   If the Pin-Priority field is omitted then the priority defaults to 989 for
   both cases.
   
   <RefSect2><title>Interesting Effects</>
   <para>
   Due to the downgrade prevention barrier at priority 1000 it is possible
   that a lower priority version  will be selected if the higher priority 
   would cause a downgrade. For instance, if package foo has versions
   <literal/1.2/, <literal/1.1/ and <literal/1.0/ installed, with 
   <literal/1.1/ being the currently installed version and the priorities of 
   each version being 900, 100 and 950 repectively the winning version will be 
   <literal/1.2/.
   <para>
   In practice this is often desired. A user may use a default pin to
   make the stable distribution the default and then use the 
   <option/--target-dist/ option with &apt-get; to select newer versions
   from unstable. The packages that have been upgraded to unstable will
   continue to follow the versions that are available in unstable since
   the stable versions now fall below the downgrade prevention barrier.
   <para>
   If this is not desired then a default pin should be used to make unstable
   have a priority less than 100.
   <para>
   Users of 3rd party add ons such as Helix GNOME can use this mechanism to
   force the usage of Helix packages, or force the usage of Debian packages
   by setting the priority of that source sufficiently high. It is even
   possible to mass downgrade from one set of packages to another by
   using a priority larger than 1000.
   </RefSect2>
 </RefSect1>
  
 <RefSect1><Title>See Also</>
   <para>
   &apt-cache; &apt-conf;
 </RefSect1>

 &manbugs;
 &manauthor;
 
</refentry>