Table of Contents
apt
vs. apt-get
/ apt-cache
vs. aptitude
testing
with some packages from unstable
unstable
with some packages from experimental
Note | |
---|---|
This chapter is written assuming the latest stable release is codename: The data source of the APT system is collectively refered as the source list in this document . This can be defined anywhere in the " |
Debian is a volunteer organization which builds consistent distributions of pre-compiled binary packages of free software and distributes them from its archive.
The Debian archive is offered by many remote mirror sites for access through HTTP and FTP methods. It is also available as CD-ROM/DVD.
The current Debian package management system which can utilize all these resources is Advanced Packaging Tool (APT).
The Debian package management system, when used properly, offers the user to install consistent sets of binary packages to the system from the archive. Currently, there are 74165 packages available for the amd64 architecture.
The Debian package management system has a rich history and many choices for the front end user program and back end archive access method to be used. Currently, we recommend the following.
apt
(8) for all interactive command line operations, including package installation, removal and dist-upgrades.
apt-get
(8) for calling Debian package management system from scripts. It is also a fallback option when apt
is not available (often with older Debian systems).
aptitude
(8) for an interactive text interface to manage the installed packages and to search the available packages.
Table 2.1. List of Debian package management tools
package | popcon | size | description |
---|---|---|---|
dpkg
|
V:912, I:999 | 6388 | low level package management system for Debian (file based) |
apt
|
V:865, I:999 | 4318 | APT front-end to manage packages with CLI: apt /apt-get /apt-cache |
aptitude
|
V:48, I:253 | 4389 | APT front-end to interactively manage packages with full screen console: aptitude (8) |
tasksel
|
V:34, I:980 | 347 | APT front-end to install selected tasks: tasksel (8) |
unattended-upgrades
|
V:182, I:278 | 301 | enhancement package for APT to enable automatic installation of security upgrades |
gnome-software
|
V:153, I:263 | 3085 | Software Center for GNOME (GUI APT front-end) |
synaptic
|
V:46, I:375 | 7627 | graphical package manager (GTK APT front-end) |
apt-utils
|
V:379, I:998 | 1065 | APT utility programs: apt-extracttemplates (1), apt-ftparchive (1), and apt-sortpkgs (1) |
apt-listchanges
|
V:358, I:872 | 398 | package change history notification tool |
apt-listbugs
|
V:6, I:8 | 477 | lists critical bugs before each APT installation |
apt-file
|
V:17, I:67 | 89 | APT package searching utility — command-line interface |
apt-rdepends
|
V:0, I:5 | 39 | recursively lists package dependencies |
Here are some key points for package configuration on the Debian system.
The manual configuration by the system administrator is respected. In other words, the package configuration system makes no intrusive configuration for the sake of convenience.
Each package comes with its own configuration script with standardized user interface called debconf
(7) to help initial installation process of the package.
Debian Developers try their best to make your upgrade experience flawless with package configuration scripts.
Full functionalities of packaged software are available to the system administrator. But ones with security risks are disabled in the default installation.
If you manually activate a service with some security risks, you are responsible for the risk containment.
Esoteric configuration may be manually enabled by the system administrator. This may create interference with popular generic helper programs for the system configuration.
Warning | |
---|---|
Do not install packages from random mixture of suites. It probably breaks the package consistency which requires deep system management knowledge, such as compiler ABI, library version, interpreter features, etc. |
The newbie Debian system administrator should stay with the stable
release of Debian while applying only security updates. Until you understand the Debian system very well, you should follow the following precautions.
Do not include testing
or unstable
in the source list.
Do not mix standard Debian with other non-Debian archives such as Ubuntu in the source list .
Do not create "/etc/apt/preferences
".
Do not change default behavior of package management tools through configuration files without knowing their full impacts.
Do not install random packages by "dpkg -i random_package
".
Do not ever install random packages by "dpkg --force-all -i random_package
".
Do not erase or alter files in "/var/lib/dpkg/
".
Do not overwrite system files by installing software programs directly compiled from source.
Install them into "/usr/local
" or "/opt
", if needed.
The non-compatible effects caused by violating above precautions to the Debian package management system may leave your system unusable.
The serious Debian system administrator who runs mission critical servers, should use extra precautions.
Do not install any packages including security updates from Debian without thoroughly testing them with your particular configuration under safe conditions.
You as the system administrator are responsible for your system in the end.
The long stability history of the Debian system is no guarantee by itself.
Caution | |
---|---|
For your production server, the |
Despite my warnings above, I know many readers of this document may wish to run the newer testing
or unstable
suites.
Enlightenment with the following saves a person from the eternal karmic struggle of upgrade hell and let him reach Debian nirvana.
This list is targeted for the self-administered Desktop environment.
Use the testing
suite since it is practically the rolling release automatically managed by the Debian archive QA infrastructure such as the Debian continuous integration, the source only upload practices, and the library transition tracking. The packages in the testing
suite are updated frequently enough to offer all the latest features.
Set the codename corresponding to the testing
suite ("trixie
" during the bookworm
-as-stable
release cycle) in the source list.
Manually update this codename in the source list to the new one only after assessing situation by yourself for about a month after the major suite release. The Debian user and developer mailing list are good sources of information for this, too.
The use of the unstable
suite isn't recommended. The unstable
suite is good for debugging packages as a developer but tends to expose you to unnecessary risks for the normal Desktop usage. Even though the unstable
suite of the Debian system looks very stable for most of the times, there have been some package problems and a few of them were not so trivial to resolve.
Here are some basic precautionary measure ideas to ensure quick and easy recovery from bugs in Debian packages.
Make the system dual bootable by installing the stable
suite of the Debian system to another partition
Make the installation CD handy for the rescue boot
Consider installing apt-listbugs
to check the Debian Bug Tracking System (BTS) information before the upgrade
Learn the package system infrastructure enough to work around the problem
Caution | |
---|---|
If you can not do any one of these precautionary actions, you are probably not ready for the |
Tip | |
---|---|
Official policy of the Debian archive is defined at Debian Policy Manual, Chapter 2 - The Debian Archive. |
Let's look into the Debian archive from a system user's perspective.
For a system user, the Debian archive is accessed using the APT system.
The APT system specifies its data source as the source list and it is described in sources.list
(5).
For the bookworm
system with the typical HTTP access, the source list in one-line-style as the following:
deb http://deb.debian.org/debian/ bookworm main non-free-firmware contrib non-free deb-src http://deb.debian.org/debian/ bookworm main non-free-firmware contrib non-free deb http://security.debian.org/debian-security bookworm-security main non-free-firmware contrib non-free deb-src http://security.debian.org/debian-security bookworm-security main non-free-firmware contrib non-free
Alternatively, the equivalent source list in deb822-style is the following.
Types: deb deb-src URIs: http://deb.debian.org/debian/ Suites: bookworm Components: main non-free-firmware contrib non-free Types: deb deb-src URIs: http://security.debian.org/debian-security/ Suites: bookworm-security Components: main non-free-firmware contrib non-free
Key points of the source list are followings.
One-line-style format
It's definition files are in the "/etc/apt/sources.list
" file and "/etc/apt/sources.list.d/*.list
" files.
Each line defines the data source for the APT system.
The "deb
" line defines for the binary packages.
The "deb-src
" line defines for the source packages.
The 1st argument is the root URL of the Debian archive.
The 2nd argument is the distribution name using either the suite name or the codename.
The 3rd and following arguments are the list of valid archive area names of the Debian archive.
Deb822-style format
It's definition files are in "/etc/apt/sources.list.d/*.source
" files.
Each block of lines separated by a blank line defines the data source for the APT system.
The "Types:
" stanza defines the list of types such as "deb
" and "deb-src
".
The "URIs:
" stanza defines the list of root URIs of the Debian archive.
The "Suites:
" stanza defines the list of distribution names using either the suite name or the codename.
The "Components:
" stanza defines the list of valid archive area names of the Debian archive.
The definition for "deb-src
" can safely be omitted if it is just for aptitude
which does not access source related meta data. It speeds up the updates of the archive meta data.
The URL can be "https://
", "http://
", "ftp://
", "file://
", ….
Lines starting with "#
" are comments and ignored.
Here, I tend to use codename "bookworm
" or "trixie
" instead of suite name "stable
" or "testing
" to avoid surprises when the next stable
is released.
Tip | |
---|---|
If " |
Here is the list of URL of the Debian archive sites and suite name or codename used in the configuration file after the bookworm
release.
Table 2.2. List of Debian archive sites
archive URL | suite name | codename | purpose of repository |
---|---|---|---|
http://deb.debian.org/debian/ | stable |
bookworm |
Quasi-static stable release after extensive checks |
http://deb.debian.org/debian/ | testing |
trixie |
Dynamic testing release after decent checks and short waits |
http://deb.debian.org/debian/ | unstable |
sid |
Dynamic unstable release after minimal checks and no waits |
http://deb.debian.org/debian/ | experimental |
N/A | Pre-release experiments by developers (optional, only for developer) |
http://deb.debian.org/debian/ | stable-proposed-updates |
bookworm-proposed-updates |
Updates for the next stable point release (optional) |
http://deb.debian.org/debian/ | stable-updates |
bookworm-updates |
Subset of stable-proposed-updates suite needing urgent updates such as timezone data (optional) |
http://deb.debian.org/debian/ | stable-backports |
bookworm-backports |
Random collection of recompiled packages mostly from the testing release (optional) |
http://security.debian.org/debian-security/ | stable-security |
bookworm-security |
Security updates for the stable release (important) |
http://security.debian.org/debian-security/ | testing-security |
trixie-security |
This isn't actively supported nor used by the security team |
Caution | |
---|---|
Only pure |
Caution | |
---|---|
You should basically list only one of |
Tip | |
---|---|
For the Debian system with the |
Note | |
---|---|
The security bugs for the |
Table 2.3. List of Debian archive area
area | number of packages | criteria of package component |
---|---|---|
main |
72806 | DFSG compliant and no dependency to non-free |
non-free-firmware |
39 | not DFSG compliant, firmware required for reasonable system installation experience |
contrib |
356 | DFSG compliant but having dependency to non-free |
non-free |
964 | not DFSG compliant and not in non-free-firmware |
Here the number of packages in the above is for the amd64 architecture. The main
area provides the Debian system (see Section 2.1.6, “Debian is 100% free software”).
The Debian archive organization can be studied best by pointing your browser to the each archive URL appended with dists
or pool
.
The distribution is referred by two ways, the suite or codename. The word distribution is alternatively used as the synonym to the suite in many documentations. The relationship between the suite and the codename can be summarized as the following.
Table 2.4. The relationship between suite and codename
Timing | suite = stable |
suite = testing |
suite = unstable |
---|---|---|---|
after the bookworm release |
codename = bookworm |
codename = trixie |
codename = sid |
after the trixie release |
codename = trixie |
codename = forky |
codename = sid |
The history of codenames are described in Debian FAQ: 6.2.1 Which other codenames have been used in the past?
In the stricter Debian archive terminology, the word "section" is specifically used for the categorization of packages by the application area. (Although, the word "main section" may sometimes be used to describe the Debian archive area named as "main".)
Every time a new upload is done by a Debian developer (DD) to the unstable
archive (via incoming processing), the DD is required to ensure uploaded packages to be compatible with the latest set of packages in the latest unstable
archive.
If DD breaks this compatibility intentionally for important library upgrade etc, there is usually announcement to the debian-devel mailing list etc.
Before a set of packages are moved by the Debian archive maintenance script from the unstable
archive to the testing
archive, the archive maintenance script not only checks the maturity (about 2-10 days old) and the status of the RC bug reports for the packages but also tries to ensure them to be compatible with the latest set of packages in the testing
archive. This process makes the testing
archive very current and usable.
Through the gradual archive freeze process led by the release team, the testing
archive is matured to make it completely consistent and bug free with some manual interventions. Then the new stable
release is created by assigning the codename for the old testing
archive to the new stable
archive and creating the new codename for the new testing
archive. The initial contents of the new testing
archive is exactly the same as that of the newly released stable
archive.
Both the unstable
and the testing
archives may suffer temporary glitches due to several factors.
Broken package upload to the archive (mostly for unstable
)
Delay of accepting the new packages to the archive (mostly for unstable
)
Archive synchronization timing issue (both for testing
and unstable
)
Manual intervention to the archive such as package removal (more for testing
) etc.
So if you ever decide to use these archives, you should be able to fix or work around these kinds of glitches.
Caution | |
---|---|
For about few months after a new |
Tip | |
---|---|
When tracking the |
See Debian Policy Manual for archive definitions.
Debian is 100% free software because of the followings:
Debian installs only free software by default to respect user's freedoms.
Debian provides only free software in main
.
Debian recommends running only free software from main
.
No packages in main
depend nor recommend packages in non-free
nor non-free-firmware
nor contrib
.
Some people wonder if the following 2 facts contradict or not.
"Debian will remain 100% free". (First term of Debian Social Contract)
Debian servers host some non-free-firmware
, non-free
and contrib
packages.
These do not contradict, because of the followings.
The Debian system is 100% free and its packages are hosted by Debian servers in the main
area.
Packages outside of the Debian system are hosted by Debian servers in the non-free
, non-free-firmware
and contrib
areas.
These are precisely explained in the 4th and 5th terms of Debian Social Contract:
Our priorities are our users and free software
We will be guided by the needs of our users and the free software community. We will place their interests first in our priorities. We will support the needs of our users for operation in many different kinds of computing environments. We will not object to non-free works that are intended to be used on Debian systems, or attempt to charge a fee to people who create or use such works. We will allow others to create distributions containing both the Debian system and other works, without any fee from us. In furtherance of these goals, we will provide an integrated system of high-quality materials with no legal restrictions that would prevent such uses of the system.
Works that do not meet our free software standards
We acknowledge that some of our users require the use of works that do not conform to the Debian Free Software Guidelines. We have created "non-free
", "non-free-firmware
" and "contrib
" areas in our archive for these works. The packages in these areas are not part of the Debian system, although they have been configured for use with Debian. We encourage CD manufacturers to read the licenses of the packages in these areas and determine if they can distribute the packages on their CDs. Thus, although non-free works are not a part of Debian, we support their use and provide infrastructure for non-free packages (such as our bug tracking system and mailing lists). The Debian official media may include firmware that is otherwise not part of the Debian system to enable use of Debian with hardware that requires such firmware.
Note | |
---|---|
The actual text of the 5th term in the current Debian Social Contract 1.2 is slightly different from the above text. This editorial deviation is intentional one to make this user document consistent without changing the real content of the Social Contract. |
Users should be aware of the risks of using packages in the non-free
, non-free-firmware
and contrib
areas:
lack of freedom for such software packages
lack of support from Debian on such software packages (Debian can't support software properly without having access to its source code.)
contamination of your 100% free Debian system
The Debian Free Software Guidelines are the free software standards for Debian. Debian interprets "software" in the widest scope including document, firmware, logo, and artwork data in the package. This makes Debian's free software standards very strict ones.
Typical non-free
, non-free-firmware
and contrib
packages include freely distributable packages of following types:
Document packages under GNU Free Documentation License with invariant sections such as ones for GCC and Make. (mostly found in the non-free/doc
section.)
Firmware packages containing sourceless binary data such as ones listed in Section 9.10.5, “Hardware drivers and firmware” as non-free-firmware
. (mostly found in the non-free-firmware/kernel
section.)
Game and font packages with restriction on commercial use and/or content modification.
Please note that the number of non-free
, non-free-firmware
and contrib
packages is less than 2% of that of main
packages. Enabling access to the non-free
, non-free-firmware
and contrib
areas does not obscure the source of packages. Interactive full screen use of aptitude
(8) provides you with full visibility and control over what packages are installed from which area to keep your system as free as you wish.
The Debian system offers a consistent set of binary packages through its versioned binary dependency declaration mechanism in the control file fields. Here is a bit over simplified definition for them.
"Depends"
This declares an absolute dependency and all of the packages listed in this field must be installed at the same time or in advance.
"Pre-Depends"
This is like Depends, except that it requires completed installation of the listed packages in advance.
"Recommends"
This declares a strong, but not absolute, dependency. Most users would not want the package unless all of the packages listed in this field are installed.
"Suggests"
This declares a weak dependency. Many users of this package may benefit from installing packages listed in this field but can have reasonable functions without them.
"Enhances"
This declares a weak dependency like Suggests but works in the opposite direction.
"Breaks"
This declares a package incompatibility usually with some version specification. Generally the resolution is to upgrade all of the packages listed in this field.
"Conflicts"
This declares an absolute incompatibility. All of the packages listed in this field must be removed to install this package.
"Replaces"
This is declared when files installed by this package replace files in the listed packages.
"Provides"
This is declared when this package provide all of the files and functionality in the listed packages.
Note | |
---|---|
Please note that defining "Provides", "Conflicts" and "Replaces" simultaneously to an virtual package is the sane configuration. This ensures that only one real package providing this virtual package can be installed at any one time. |
The official definition including source dependency can be found in the Policy Manual: Chapter 7 - Declaring relationships between packages.
Here is a summary of the simplified event flow of the package management by APT.
Update ("apt update
", "aptitude update
" or "apt-get update
"):
Fetch archive metadata from remote archive
Reconstruct and update local metadata for use by APT
Upgrade ("apt upgrade
" and "apt full-upgrade
", or "aptitude safe-upgrade
" and "aptitude full-upgrade
", or "apt-get upgrade
" and "apt-get dist-upgrade
"):
Choose candidate version which is usually the latest available version for all installed packages (see Section 2.7.7, “Tweaking candidate version with apt-pinning” for exception)
Make package dependency resolution
Fetch selected binary packages from remote archive if candidate version is different from installed version
Unpack fetched binary packages
Run preinst script
Install binary files
Run postinst script
Install ("apt install …
", aptitude install …
" or "apt-get install …
"):
Choose packages listed on the command line
Make package dependency resolution
Fetch selected binary packages from remote archive
Unpack fetched binary packages
Run preinst script
Install binary files
Run postinst script
Remove ("apt remove …
", "aptitude remove …
" or "apt-get remove …
"):
Choose packages listed on the command line
Make package dependency resolution
Run prerm script
Remove installed files except configuration files
Run postrm script
Purge ("apt purge
", "aptitude purge …
" or "apt-get purge …
"):
Choose packages listed on the command line
Make package dependency resolution
Run prerm script
Remove installed files including configuration files
Run postrm script
Here, I intentionally skipped technical details for the sake of big picture.
You should read the fine official documentation. The first document to read is the Debian specific "/usr/share/doc/package_name/README.Debian
". Other documentation in "/usr/share/doc/package_name/
" should be consulted too. If you set shell as Section 1.4.2, “Customizing bash”, type the following.
$ cd package_name
$ pager README.Debian
$ mc
You may need to install the corresponding documentation package named with "-doc
" suffix for detailed information.
If you are experiencing problems with a specific package, make sure to check out the Debian bug tracking system (BTS) sites, first.
Table 2.5. List of key web site to resolving problems with a specific package
web site | command |
---|---|
Home page of the Debian bug tracking system (BTS) | sensible-browser "https://bugs.debian.org/" |
The bug report of a known package name | sensible-browser "https://bugs.debian.org/package_name" |
The bug report of known bug number | sensible-browser "https://bugs.debian.org/bug_number" |
Search Google with search words including "site:debian.org
", "site:wiki.debian.org
", "site:lists.debian.org
", etc.
When you file a bug report, please use reportbug
(1) command.
When you encounter more than 2 similar packages and wonder which one to install without "trial and error" efforts, you should use some common sense. I consider following points are good indications of preferred packages.
Essential: yes > no
Area: main > contrib > non-free
Priority: required > important > standard > optional > extra
Tasks: packages listed in tasks such as "Desktop environment"
Packages selected by the dependency package (e.g., gcc-10
by gcc
)
Popcon: higher in the vote and install number
Changelog: regular updates by the maintainer
BTS: No RC bugs (no critical, no grave, and no serious bugs)
BTS: responsive maintainer to bug reports
BTS: higher number of the recently fixed bugs
BTS: lower number of remaining non-wishlist bugs
Debian being a volunteer project with distributed development model, its archive contains many packages with different focus and quality. You must make your own decision what to do with them.
Whatever suite of Debian system you may decide to use, you may still wish to run versions of programs which aren't available in that suite. Even if you find binary packages of such programs in other Debian suites or in other non-Debian resources, their requirements may conflict with your current Debian system.
Although you can tweak package management system with apt-pinning technique etc. as described in Section 2.7.7, “Tweaking candidate version with apt-pinning” to instal such out-of-sync binary packages, such tweaking approaches have only limited use cases since they may break those programs and your system.
Before brutally installing such out-of-sync packages, you should seek all available alternative safer technical solutions which are compatible with your current Debian syetem.
Install such programs using corresponding sandboxed upstream binary packages (see Section 7.7, “Sandbox”).
Create a chroot or similar environment and run such programs in it (see Section 9.11, “Virtualized system”).
CLI commands can be executed easily under its compatible chroot (see Section 9.11.4, “Chroot system”).
Multiple full desktop environments can be tried easily without reboot (see Section 9.11.5, “Multiple desktop systems”).
Build desired versions of binary packages which are compatible with your current Debian syetem by yourself.
This is a non-trivial task (see Section 2.7.13, “Porting a package to the stable system”).
Repository based package management operations on the Debian system can be performed by many APT-based package management tools available on the Debian system. Here, we explain 3 basic package management tools: apt
, apt-get
/ apt-cache
and aptitude
.
For the package management operation which involves package installation or updates package metadata, you need to have root privilege.
Although aptitude
is a very nice interactive tool which the author mainly uses, you should know some cautionary facts:
The aptitude
command is not recommended for the release-to-release system upgrade on the stable
Debian system after the new release.
The use of "apt full-upgrade
" or "apt-get dist-upgrade
" is recommended for it. See Bug #411280.
The aptitude
command sometimes suggests mass package removals for the system upgrade on the testing
or unstable
Debian system.
This situation has frightened many system administrators. Don't panic.
This seems to be caused mostly by the version skew among packages depended or recommended by a meta-package such as gnome-core
.
This can be resolved by selecting "Cancel pending actions" in the aptitude
command menu, exiting aptitude
, and using "apt full-upgrade
".
The apt-get
and apt-cache
commands are the most basic APT-based package management tools.
apt-get
and apt-cache
offer only the commandline user interface.
apt-get
is most suitable for the major system upgrade between releases, etc.
apt-get
offers a robust package dependency resolver.
apt-get
is less demanding on hardware resources. It consumes less memory and runs faster.
apt-cache
offers a standard regex based search on the package name and description.
apt-get
and apt-cache
can manage multiple versions of packages using /etc/apt/preferences
but it is quite cumbersome.
The apt
command is a high-level commandline interface for package management. It is basically a wrapper of apt-get
, apt-cache
and similar commands, originally intended as an end-user interface and enables some options better suited for interactive usage by default.
apt
provides a friendly progress bar when installing packages using apt install
.
apt
will remove cached .deb
packages by default after sucessful installation of downloaded packages.
Tip | |
---|---|
Users are recommended to use the new |
The aptitude
command is the most versatile APT-based package management tool.
aptitude
offers the fullscreen interactive text user interface.
aptitude
offers the commandline user interface, too.
aptitude
is most suitable for the daily interactive package management such as inspecting installed packages and searching available packages.
aptitude
is more demanding on hardware resources. It consumes more memory and runs slower.
aptitude
offers an enhanced regex based search on all of the package metadata.
aptitude
can manage multiple versions of packages without using /etc/apt/preferences
and it is quite intuitive.
Here are basic package management operations with the commandline using apt
(8), aptitude
(8) and apt-get
(8) /apt-cache
(8).
Table 2.6. Basic package management operations with the commandline using apt
(8), aptitude
(8) and apt-get
(8) /apt-cache
(8)
apt syntax |
aptitude syntax |
apt-get /apt-cache syntax |
description |
---|---|---|---|
apt update |
aptitude update |
apt-get update |
update package archive metadata |
apt install foo |
aptitude install foo |
apt-get install foo |
install candidate version of "foo " package with its dependencies |
apt upgrade |
aptitude safe-upgrade |
apt-get upgrade |
install candidate version of installed packages without removing any other packages |
apt full-upgrade |
aptitude full-upgrade |
apt-get dist-upgrade |
install candidate version of installed packages while removing other packages if needed |
apt remove foo |
aptitude remove foo |
apt-get remove foo |
remove "foo " package while leaving its configuration files |
apt autoremove |
N/A | apt-get autoremove |
remove auto-installed packages which are no longer required |
apt purge foo |
aptitude purge foo |
apt-get purge foo |
purge "foo " package with its configuration files |
apt clean |
aptitude clean |
apt-get clean |
clear out the local repository of retrieved package files completely |
apt autoclean |
aptitude autoclean |
apt-get autoclean |
clear out the local repository of retrieved package files for outdated packages |
apt show foo |
aptitude show foo |
apt-cache show foo |
display detailed information about "foo " package |
apt search regex |
aptitude search regex |
apt-cache search regex |
search packages which match regex |
N/A | aptitude why regex |
N/A | explain the reason why regex matching packages should be installed |
N/A | aptitude why-not regex |
N/A | explain the reason why regex matching packages can not be installed |
apt list --manual-installed |
aptitude search '~i!~M' |
apt-mark showmanual |
list manually installed packages |
apt
/ apt-get
and aptitude
can be mixed without major troubles.
The "aptitude why regex
" can list more information by "aptitude -v why regex
". Similar information can be obtained by "apt rdepends package
" or "apt-cache rdepends package
".
When aptitude
command is started in the commandline mode and faces some issues such as package conflicts, you can switch to the full screen interactive mode by pressing "e
"-key later at the prompt.
Note | |
---|---|
Although the |
You may provide command options right after "aptitude
".
Table 2.7. Notable command options for aptitude
(8)
command option | description |
---|---|
-s |
simulate the result of the command |
-d |
download only but no install/upgrade |
-D |
show brief explanations before the automatic installations and removals |
See aptitude
(8) and "aptitude user's manual" at "/usr/share/doc/aptitude/README
" for more.
For the interactive package management, you start aptitude
in interactive mode from the console shell prompt as follows.
$ sudo aptitude -u Password:
This updates the local copy of the archive information and display the package list in the full screen with menu. Aptitude places its configuration at "~/.aptitude/config
".
Tip | |
---|---|
If you want to use root's configuration instead of user's one, use " |
Tip | |
---|---|
|
Notable key strokes to browse status of packages and to set "planned action" on them in this full screen mode are the following.
Table 2.8. List of key bindings for aptitude
key | key binding |
---|---|
F10 or Ctrl-t |
menu |
? |
display help for keystroke (more complete listing) |
F10 → Help → User's Manual |
display User's Manual |
u |
update package archive information |
+ |
mark the package for the upgrade or the install |
- |
mark the package for the remove (keep configuration files) |
_ |
mark the package for the purge (remove configuration files) |
= |
place the package on hold |
U |
mark all upgradable packages (function as full-upgrade) |
g |
start downloading and installing selected packages |
q |
quit current screen and save changes |
x |
quit current screen and discard changes |
Enter |
view information about a package |
C |
view a package's changelog |
l |
change the limit for the displayed packages |
/ |
search for the first match |
\ |
repeat the last search |
The file name specification of the command line and the menu prompt after pressing "l
" and "//
" take the aptitude regex as described below. Aptitude regex can explicitly match a package name using a string started by "~n
" and followed by the package name.
Tip | |
---|---|
You need to press " |
In the interactive full screen mode of aptitude
(8), packages in the package list are displayed as the next example.
idA libsmbclient -2220kB 3.0.25a-1 3.0.25a-2
Here, this line means from the left as the following.
The "current state" flag (the first letter)
The "planned action" flag (the second letter)
The "automatic" flag (the third letter)
The Package name
The change in disk space usage attributed to "planned action"
The current version of the package
The candidate version of the package
Tip | |
---|---|
The full list of flags are given at the bottom of Help screen shown by pressing " |
The candidate version is chosen according to the current local preferences (see apt_preferences
(5) and Section 2.7.7, “Tweaking candidate version with apt-pinning”).
Several types of package views are available under the menu "Views
".
Table 2.9. List of views for aptitude
view | description of view |
---|---|
Package View |
see Table 2.10, “The categorization of standard package views” (default) |
Audit Recommendations |
list packages which are recommended by some installed packages but not yet installed |
Flat Package List |
list packages without categorization (for use with regex) |
Debtags Browser |
list packages categorized according to their debtags entries |
Source Package View |
list packages grouped by source packages |
Note | |
---|---|
Please help us improving tagging packages with debtags! |
The standard "Package View
" categorizes packages somewhat like dselect
with few extra features.
Table 2.10. The categorization of standard package views
category | description of view |
---|---|
Upgradable Packages |
list packages organized as section → area → package |
New Packages |
, , |
Installed Packages |
, , |
Not Installed Packages |
, , |
Obsolete and Locally Created Packages |
, , |
Virtual Packages |
list packages with the same function |
Tasks |
list packages with different functions generally needed for a task |
Tip | |
---|---|
|
Aptitude offers several options for you to search packages using its regex formula.
Shell commandline:
"aptitude search 'aptitude_regex'
" to list installation status, package name and short description of matching packages
"aptitude show 'package_name'
" to list detailed description of the package
Interactive full screen mode:
"l
" to limit package view to matching packages
"/
" for search to a matching package
"\
" for backward search to a matching package
"n
" for find-next
"N
" for find-next (backward)
Tip | |
---|---|
The string for package_name is treated as the exact string match to the package name unless it is started explicitly with " |
The aptitude regex formula is mutt-like extended ERE (see Section 1.6.2, “Regular expressions”) and the meanings of the aptitude
specific special match rule extensions are as follows.
Table 2.11. List of the aptitude regex formula
description of the extended match rule | regex formula |
---|---|
match on package name | ~nregex_name |
match on description | ~dregex_description |
match on task name | ~tregex_task |
match on debtag | ~Gregex_debtag |
match on maintainer | ~mregex_maintainer |
match on package section | ~sregex_section |
match on package version | ~Vregex_version |
match archive | ~A{bookworm,trixie,sid } |
match origin | ~O{debian,… } |
match priority | ~p{extra,important,optional,required,standard } |
match essential packages | ~E |
match virtual packages | ~v |
match new packages | ~N |
match with pending action | ~a{install,upgrade,downgrade,remove,purge,hold,keep } |
match installed packages | ~i |
match installed packages with A-mark (auto installed packages) | ~M |
match installed packages without A-mark (administrator selected packages) | ~i!~M |
match installed and upgradable packages | ~U |
match removed but not purged packages | ~c |
match removed, purged or can-be-removed packages | ~g |
match packages declaring a broken dependency | ~b |
match packages declaring broken dependency of type | ~Btype |
match pattern packages declaring dependency of type | ~D[type:]pattern |
match pattern packages declaring broken dependency of type | ~DB[type:]pattern |
match packages to which the pattern matching package declares dependency type | ~R[type:]pattern |
match packages to which the pattern matching package declares broken dependency type | ~RB[type:]pattern |
match packages to which some other installed packages depend on | ~R~i |
match packages to which no other installed packages depend on | !~R~i |
match packages to which some other installed packages depend or recommend on | ~R~i|~Rrecommends:~i |
match pattern package with filtered version | ~S filter pattern |
match all packages (true) | ~T |
match no packages (false) | ~F |
The regex part is the same ERE as the one used in typical Unix-like text tools using "^
", ".*
", "$
" etc. as in egrep
(1), awk
(1) and perl
(1).
The dependency type is one of (depends, predepends, recommends, suggests, conflicts, replaces, provides) specifying the package interrelationship.
The default dependency type is "depends".
Tip | |
---|---|
When regex_pattern is a null string, place " |
Here are some short cuts.
"~Pterm
" == "~Dprovides:term
"
"~Cterm
" == "~Dconflicts:term
"
"…~W term
" == "(…|term)
"
Users familiar with mutt
pick up quickly, as mutt was the inspiration for the expression syntax. See "SEARCHING, LIMITING, AND EXPRESSIONS" in the "User's Manual" "/usr/share/doc/aptitude/README
".
Note | |
---|---|
With the |
The selection of a package in aptitude
not only pulls in packages which are defined in its "Depends:
" list but also defined in the "Recommends:
" list if the menu "F10
→ Options → Preferences → Dependency handling" is set accordingly. These auto installed packages are removed automatically if they are no longer needed under aptitude
.
The flag controlling the "auto install" behavior of the aptitude
command can also be manipulated using the apt-mark
(8) command from the apt
package.
You can check package activity history in the log files.
Table 2.12. The log files for package activities
file | content |
---|---|
/var/log/dpkg.log |
Log of dpkg level activity for all package activities |
/var/log/apt/term.log |
Log of generic APT activity |
/var/log/aptitude |
Log of aptitude command activity |
In reality, it is not so easy to get meaningful understanding quickly out from these logs. See Section 9.3.9, “Recording changes in configuration files” for easier way.
Here are few examples of aptitude
(8) operations.
You can seek packages which satisfy your needs with aptitude
from the package description or from the list under "Tasks".
The following command lists packages with regex matching on package names.
$ aptitude search '~n(pam|nss).*ldap' p libnss-ldap - NSS module for using LDAP as a naming service p libpam-ldap - Pluggable Authentication Module allowing LDAP interfaces
This is quite handy for you to find the exact name of a package.
The regex "~dipv6
" in the "New Flat Package List" view with "l
" prompt, limits view to packages with the matching description and let you browse their information interactively.
You can purge all remaining configuration files of removed packages.
Check results of the following command.
# aptitude search '~c'
If you think listed packages are OK to be purged, execute the following command.
# aptitude purge '~c'
You may want to do the similar in the interactive mode for fine grained control.
You provide the regex "~c
" in the "New Package View" view with "l
" prompt. This limits the package view only to regex matched packages, i.e., "removed but not purged". All these regex matched packages can be shown by pressing "[
" at top level headings.
Then you press "_
" at top level headings such as "Not Installed Packages". Only regex matched packages under the heading are marked to be purged by this. You can exclude some packages to be purged by pressing "=
" interactively for each of them.
This technique is quite handy and works for many other command keys.
Here is how I tidy auto/manual install status for packages (after using non-aptitude package installer etc.).
Start aptitude
in interactive mode as root.
Type "u
", "U
", "f
" and "g
" to update and upgrade package list and packages.
Type "l
" to enter the package display limit as "~i(~R~i|~Rrecommends:~i)
" and type "M
" over "Installed Packages
" as auto installed.
Type "l
" to enter the package display limit as "~prequired|~pimportant|~pstandard|~E
" and type "m
" over "Installed Packages
" as manual installed.
Type "l
" to enter the package display limit as "~i!~M
" and remove unused package by typing "-
" over each of them after exposing them by typing "[
" over "Installed Packages
".
Type "l
", to enter the package display limit as "~i
"; then type "m
" over "Tasks
", to mark that packages as manual installed.
Exit aptitude
.
Start "apt-get -s autoremove|less
" as root to check what are not used.
Restart aptitude
in interactive mode and mark needed packages as "m
".
Restart "apt-get -s autoremove|less
" as root to recheck REMOVED contain only expected packages.
Start "apt-get autoremove|less
" as root to autoremove unused packages.
The "m
" action over "Tasks
" is an optional one to prevent mass package removal situation in future.
Note | |
---|---|
When moving to a new release etc, you should consider to perform a clean installation of new system even though Debian is upgradable as described below. This provides you a chance to remove garbages collected and exposes you to the best combination of latest packages. Of course, you should make a full backup of system to a safe place (see Section 10.2, “Backup and recovery”) before doing this. I recommend to make a dual boot configuration using different partition to have the smoothest transition. |
You can perform system wide upgrade to a newer release by changing contents of the source list pointing to a new release and running the "apt update; apt dist-upgrade
" command.
To upgrade from stable
to testing
or unstable
during the bookworm
-as-stable
release cycle, you replace "bookworm
" in the source list example of Section 2.1.5, “Debian archive basics” with "trixie
" or "sid
".
In reality, you may face some complications due to some package transition issues, mostly due to package dependencies. The larger the difference of the upgrade, the more likely you face larger troubles. For the transition from the old stable
to the new stable
after its release, you can read its new Release Notes and follow the exact procedure described in it to minimize troubles.
When you decide to move from stable
to testing
before its formal release, there are no Release Notes to help you. The difference between stable
and testing
could have grown quite large after the previous stable
release and makes upgrade situation complicated.
You should make precautionary moves for the full upgrade while gathering latest information from mailing list and using common senses.
Read previous "Release Notes".
Backup entire system (especially data and configuration information).
Have bootable media handy for broken bootloader.
Inform users on the system well in advance.
Record upgrade activity with script
(1).
Apply "unmarkauto" to required packages, e.g., "aptitude unmarkauto vim
", to prevent removal.
Minimize installed packages to reduce chance of package conflicts, e.g., remove desktop task packages.
Remove the "/etc/apt/preferences
" file (disable apt-pinning).
Try to upgrade step wise: oldstable
→ stable
→ testing
→ unstable
.
Update the source list to point to new archive only and run "aptitude update
".
Install, optionally, new core packages first, e.g., "aptitude install perl
".
Run the "apt-get -s dist-upgrade
" command to assess impact.
Run the "apt-get dist-upgrade
" command at last.
Caution | |
---|---|
It is not wise to skip major Debian release when upgrading between |
Caution | |
---|---|
In previous "Release Notes", GCC, Linux Kernel, initrd-tools, Glibc, Perl, APT tool chain, etc. have required some special attention for system wide upgrade. |
For daily upgrade in unstable
, see Section 2.4.3, “Safeguarding for package problems”.
Here are list of other package management operations for which aptitude
is too high-level or lacks required functionalities.
Table 2.13. List of advanced package management operations
command | action |
---|---|
COLUMNS=120 dpkg -l package_name_pattern |
list status of an installed package for the bug report |
dpkg -L package_name |
list contents of an installed package |
dpkg -L package_name | egrep '/usr/share/man/man.*/.+' |
list manpages for an installed package |
dpkg -S file_name_pattern |
list installed packages which have matching file name |
apt-file search file_name_pattern |
list packages in archive which have matching file name |
apt-file list package_name_pattern |
list contents of matching packages in archive |
dpkg-reconfigure package_name |
reconfigure the exact package |
dpkg-reconfigure -plow package_name |
reconfigure the exact package with the most detailed question |
configure-debian |
reconfigure packages from the full screen menu |
dpkg --audit |
audit system for partially installed packages |
dpkg --configure -a |
configure all partially installed packages |
apt-cache policy binary_package_name |
show available version, priority, and archive information of a binary package |
apt-cache madison package_name |
show available version, archive information of a package |
apt-cache showsrc binary_package_name |
show source package information of a binary package |
apt-get build-dep package_name |
install required packages to build package |
aptitude build-dep package_name |
install required packages to build package |
apt-get source package_name |
download a source (from standard archive) |
dget URL for dsc file |
download a source packages (from other archive) |
dpkg-source -x package_name_version-debian.revision.dsc |
build a source tree from a set of source packages ("*.orig.tar.gz " and "*.debian.tar.gz "/"*.diff.gz ") |
debuild binary |
build package(s) from a local source tree |
make-kpkg kernel_image |
build a kernel package from a kernel source tree |
make-kpkg --initrd kernel_image |
build a kernel package from a kernel source tree with initramfs enabled |
dpkg -i package_name_version-debian.revision_arch.deb |
install a local package to the system |
apt install /path/to/package_filename.deb |
install a local package to the system, meanwhile try to resolve dependency automatically |
debi package_name_version-debian.revision_arch.dsc |
install local package(s) to the system |
dpkg --get-selections '*' >selection.txt |
save dpkg level package selection state information |
dpkg --set-selections <selection.txt |
set dpkg level package selection state information |
echo package_name hold | dpkg --set-selections |
set dpkg level package selection state for a package to hold (equivalent to "aptitude hold package_name ") |
Note | |
---|---|
For a package with the multi-arch feature, you may need to specify the architecture name for some commands. For example, use " |
Caution | |
---|---|
Lower level package tools such as " |
Please note the following.
All system configuration and installation commands require to be run from root.
Unlike aptitude
which uses regex (see Section 1.6.2, “Regular expressions”), other package management commands use pattern like shell glob (see Section 1.5.6, “Shell glob”).
apt-file
(1) provided by the apt-file
package must run "apt-file update
" in advance.
configure-debian
(8) provided by the configure-debian
package runs dpkg-reconfigure
(8) as its backend.
dpkg-reconfigure
(8) runs package scripts using debconf
(1) as its backend.
"apt-get build-dep
", "apt-get source
" and "apt-cache showsrc
" commands require "deb-src
" entry in the source list.
dget
(1), debuild
(1), and debi
(1) require devscripts
package.
See (re)packaging procedure using "apt-get source
" in Section 2.7.13, “Porting a package to the stable system”.
make-kpkg
command requires the kernel-package
package (see Section 9.10, “The kernel”).
See Section 12.9, “Making Debian package” for general packaging.
The installation of debsums
enables verification of installed package files against MD5sum values in the "/var/lib/dpkg/info/*.md5sums
" file with debsums
(1). See Section 10.3.5, “The MD5 sum” for how MD5sum works.
Note | |
---|---|
Because MD5sum database may be tampered by the intruder, |
Many users prefer to follow the testing (or unstable) releases of the Debian system for its new features and packages. This makes the system more prone to be hit by the critical package bugs.
The installation of the apt-listbugs
package safeguards your system against critical bugs by checking Debian BTS automatically for critical bugs when upgrading with APT system.
The installation of the apt-listchanges
package provides important news in "NEWS.Debian
" when upgrading with APT system.
Although visiting Debian site https://packages.debian.org/ facilitates easy ways to search on the package meta data these days, let's look into more traditional ways.
The grep-dctrl
(1), grep-status
(1), and grep-available
(1) commands can be used to search any file which has the general format of a Debian package control file.
The "dpkg -S file_name_pattern
" can be used to search package names which contain files with the matching name installed by dpkg
. But this overlooks files created by the maintainer scripts.
If you need to make more elaborate search on the dpkg meta data, you need to run "grep -e regex_pattern *
" command in the "/var/lib/dpkg/info/
" directory. This makes you search words mentioned in package scripts and installation query texts.
If you wish to look up package dependency recursively, you should use apt-rdepends
(8).
Let's learn how the Debian package management system works internally. This should help you to create your own solution to some package problems.
Meta data files for each distribution are stored under "dist/codename
" on each Debian mirror sites, e.g., "http://deb.debian.org/debian/
". Its archive structure can be browsed by the web browser. There are 6 types of key meta data.
Table 2.14. The content of the Debian archive meta data
file | location | content |
---|---|---|
Release |
top of distribution | archive description and integrity information |
Release.gpg |
top of distribution | signature file for the "Release " file signed with the archive key |
Contents-architecture |
top of distribution | list of all files for all the packages in the pertinent archive |
Release |
top of each distribution/area/architecture combination | archive description used for the rule of apt_preferences (5) |
Packages |
top of each distribution/area/binary-architecture combination | concatenated debian/control for binary packages |
Sources |
top of each distribution/area/source combination | concatenated debian/control for source packages |
In the recent archive, these meta data are stored as the compressed and differential files to reduce network traffic.
Tip | |
---|---|
The top level " |
Each suite of the Debian archive has a top level "Release
" file, e.g., "http://deb.debian.org/debian/dists/unstable/Release
", as follows.
Origin: Debian Label: Debian Suite: unstable Codename: sid Date: Sat, 14 May 2011 08:20:50 UTC Valid-Until: Sat, 21 May 2011 08:20:50 UTC Architectures: alpha amd64 armel hppa hurd-i386 i386 ia64 kfreebsd-amd64 kfreebsd-i386 mips mipsel powerpc s390 sparc Components: main contrib non-free Description: Debian x.y Unstable - Not Released MD5Sum: bdc8fa4b3f5e4a715dd0d56d176fc789 18876880 Contents-alpha.gz 9469a03c94b85e010d116aeeab9614c0 19441880 Contents-amd64.gz 3d68e206d7faa3aded660dc0996054fe 19203165 Contents-armel.gz ...
Note | |
---|---|
Here, you can find my rationale to use the "suite", and "codename" in Section 2.1.5, “Debian archive basics”. The "distribution" is used when referring to both "suite" and "codename". All archive "area" names offered by the archive are listed under "Components". |
The integrity of the top level "Release
" file is verified by cryptographic infrastructure called the secure apt as described in apt-secure
(8).
The cryptographic signature file "Release.gpg
" is created from the authentic top level "Release
" file and the secret Debian archive key.
The public Debian archive keys are locally installed by the latest debian-archive-keyring
package.
The secure APT system automatically verifies the integrity of the downloaded top level "Release
" file cryptographically by this "Release.gpg
" file and the locally installed public Debian archive keys.
The integrity of all the "Packages
" and "Sources
" files are verified by using MD5sum values in its top level "Release
" file. The integrity of all package files are verified by using MD5sum values in the "Packages
" and "Sources
" files. See debsums
(1) and Section 2.4.2, “Verification of installed package files”.
Since the cryptographic signature verification is a much more CPU intensive process than the MD5sum value calculation, use of MD5sum value for each package while using cryptographic signature for the top level "Release
" file provides the good security with the performance (see Section 10.3, “Data security infrastructure”).
If the source list entry specifies the "signed-by
" option, the integrity of its downloaded top level "Release
" file is verified using specified public key. This is useful when the source list contains non-Debian archives.
Tip | |
---|---|
The use of |
Also, you can manually verify the integrity of the "Release
" file with the "Release.gpg
" file and the public Debian archive key posted on ftp-master.debian.org using gpg
.
Tip | |
---|---|
The archive level " |
There are archive level "Release
" files for all archive locations specified by the source list, such as "http://deb.debian.org/debian/dists/unstable/main/binary-amd64/Release
" or "http://deb.debian.org/debian/dists/sid/main/binary-amd64/Release
" as follows.
Archive: unstable Origin: Debian Label: Debian Component: main Architecture: amd64
Caution | |
---|---|
For " |
For some archives, such as experimental
, and bookworm-backports
, which contain packages which should not be installed automatically, there is an extra line, e.g., "http://deb.debian.org/debian/dists/experimental/main/binary-amd64/Release
" as follows.
Archive: experimental Origin: Debian Label: Debian NotAutomatic: yes Component: main Architecture: amd64
Please note that for normal archives without "NotAutomatic: yes
", the default Pin-Priority value is 500, while for special archives with "NotAutomatic: yes
", the default Pin-Priority value is 1 (see apt_preferences
(5) and Section 2.7.7, “Tweaking candidate version with apt-pinning”).
When APT tools, such as aptitude
, apt-get
, synaptic
, apt-file
, auto-apt
, … are used, we need to update the local copies of the meta data containing the Debian archive information. These local copies have following file names corresponding to the specified distribution
, area
, and architecture
names in the source list (see Section 2.1.5, “Debian archive basics”).
"/var/lib/apt/lists/deb.debian.org_debian_dists_distribution_Release
"
"/var/lib/apt/lists/deb.debian.org_debian_dists_distribution_Release.gpg
"
"/var/lib/apt/lists/deb.debian.org_debian_dists_distribution_area_binary-architecture_Packages
"
"/var/lib/apt/lists/deb.debian.org_debian_dists_distribution_area_source_Sources
"
"/var/cache/apt/apt-file/deb.debian.org_debian_dists_distribution_Contents-architecture.gz
" (for apt-file
)
First 4 types of files are shared by all the pertinent APT commands and updated from command line by "apt-get update
" or "aptitude update
". The "Packages
" meta data are updated if the "deb
" is specified in the source list. The "Sources
" meta data are updated if the "deb-src
" is specified in the source list.
The "Packages
" and "Sources
" meta data contain "Filename:
" stanza pointing to the file location of the binary and source packages. Currently, these packages are located under the "pool/
" directory tree for the improved transition over the releases.
Local copies of "Packages
" meta data can be interactively searched with the help of aptitude
. The specialized search command grep-dctrl
(1) can search local copies of "Packages
" and "Sources
" meta data.
Local copy of "Contents-architecture
" meta data can be updated by "apt-file update
" and its location is different from other 4 ones. See apt-file
(1). (The auto-apt
uses different location for local copy of "Contents-architecture.gz
" as default.)
In addition to the remotely fetched meta data, the APT tool after lenny
stores its locally generated installation state information in the "/var/lib/apt/extended_states
" which is used by all APT tools to track all auto installed packages.
In addition to the remotely fetched meta data, the aptitude
command stores its locally generated installation state information in the "/var/lib/aptitude/pkgstates
" which is used only by it.
All the remotely fetched packages via APT mechanism are stored in the "/var/cache/apt/archives
" until they are cleaned.
This cache file cleaning policy for aptitude
can be set under "Options
" → "Preferences
" and it may be forced by its menu "Clean package cache
" or "Clean obsolete files
" under "Actions
".
Debian package files have particular name structures.
Table 2.15. The name structure of Debian packages
package type | name structure |
---|---|
The binary package (a.k.a deb ) |
package-name_upstream-version-debian.revision_architecture.deb |
The binary package for debian-installer (a.k.a udeb ) |
package-name_upstream-version-debian.revision_architecture.udeb |
The source package (upstream source) | package-name_upstream-version-debian.revision.orig.tar.gz |
The 1.0 source package (Debian changes) |
package-name_upstream-version-debian.revision.diff.gz |
The 3.0 (quilt) source package (Debian changes) |
package-name_upstream-version-debian.revision.debian.tar.gz |
The source package (description) | package-name_upstream-version-debian.revision.dsc |
Tip | |
---|---|
Here only the basic source package formats are described. See more on |
Table 2.16. The usable characters for each component in the Debian package names
name component | usable characters (ERE regex) | existence |
---|---|---|
package-name |
[a-z0-9][-a-z0-9.+]+ |
required |
epoch: |
[0-9]+: |
optional |
upstream-version |
[-a-zA-Z0-9.+:]+ |
required |
debian.revision |
[a-zA-Z0-9.+~]+ |
optional |
Note | |
---|---|
You can check package version order by |
Note | |
---|---|
The debian-installer (d-i) uses |
dpkg
(1) is the lowest level tool for the Debian package management. This is very powerful and needs to be used with care.
While installing package called "package_name
", dpkg
process it in the following order.
Unpack the deb file ("ar -x
" equivalent)
Execute "package_name.preinst
" using debconf
(1)
Install the package content to the system ("tar -x
" equivalent)
Execute "package_name.postinst
" using debconf
(1)
The debconf
system provides standardized user interaction with I18N and L10N (Chapter 8, I18N and L10N) supports.
Table 2.17. The notable files created by dpkg
file | description of contents |
---|---|
/var/lib/dpkg/info/package_name.conffiles |
list of configuration files. (user modifiable) |
/var/lib/dpkg/info/package_name.list |
list of files and directories installed by the package |
/var/lib/dpkg/info/package_name.md5sums |
list of MD5 hash values for files installed by the package |
/var/lib/dpkg/info/package_name.preinst |
package script to be run before the package installation |
/var/lib/dpkg/info/package_name.postinst |
package script to be run after the package installation |
/var/lib/dpkg/info/package_name.prerm |
package script to be run before the package removal |
/var/lib/dpkg/info/package_name.postrm |
package script to be run after the package removal |
/var/lib/dpkg/info/package_name.config |
package script for debconf system |
/var/lib/dpkg/alternatives/package_name |
the alternative information used by the update-alternatives command |
/var/lib/dpkg/available |
the availability information for all the package |
/var/lib/dpkg/diversions |
the diversions information used by dpkg (1) and set by dpkg-divert (8) |
/var/lib/dpkg/statoverride |
the stat override information used by dpkg (1) and set by dpkg-statoverride (8) |
/var/lib/dpkg/status |
the status information for all the packages |
/var/lib/dpkg/status-old |
the first-generation backup of the "var/lib/dpkg/status " file |
/var/backups/dpkg.status* |
the second-generation backup and older ones of the "var/lib/dpkg/status " file |
The "status
" file is also used by the tools such as dpkg
(1), "dselect update
" and "apt-get -u dselect-upgrade
".
The specialized search command grep-dctrl
(1) can search the local copies of "status
" and "available
" meta data.
Tip | |
---|---|
In the debian-installer environment, the |
The Debian system has mechanism to install somewhat overlapping programs peacefully using update-alternatives
(1). For example, you can make the vi
command select to run vim
while installing both vim
and nvi
packages.
$ ls -l $(type -p vi) lrwxrwxrwx 1 root root 20 2007-03-24 19:05 /usr/bin/vi -> /etc/alternatives/vi $ sudo update-alternatives --display vi ... $ sudo update-alternatives --config vi Selection Command ---------------------------------------------- 1 /usr/bin/vim *+ 2 /usr/bin/nvi Enter to keep the default[*], or type selection number: 1
The Debian alternatives system keeps its selection as symlinks in "/etc/alternatives/
". The selection process uses corresponding file in "/var/lib/dpkg/alternatives/
".
Stat overrides provided by the dpkg-statoverride
(8) command are a way to tell dpkg
(1) to use a different owner or mode for a file when a package is installed. If "--update
" is specified and file exists, it is immediately set to the new owner and mode.
Caution | |
---|---|
The direct alteration of owner or mode for a file owned by the package using |
Note | |
---|---|
I use the word file here, but in reality this can be any filesystem object that |
File diversions provided by the dpkg-divert
(8) command are a way of forcing dpkg
(1) not to install a file into its default location, but to a diverted location. The use of dpkg-divert
is meant for the package maintenance scripts. Its casual use by the system administrator is deprecated.
When running testing
or unstable
system, the administrator is expected to recover from broken package management situation.
Caution | |
---|---|
Some methods described here are high risk actions. You have been warned! |
If you force to install a package by "sudo dpkg -i ...
" to a system without all dependency packages installed, the package installation will fail as partially installed.
You should install all dependency packages using APT-system or "sudo dpkg -i ...
".
Then, configure all partially installed packages with the following command.
# dpkg --configure -a
Caching errors of the package data cause intriguing errors, such as "GPG error: ... invalid: BADSIG ..." with APT.
You should remove all cached data by "sudo rm -rf /var/lib/apt/*
" and try again. (If apt-cacher-ng
is used, you should also run "sudo rm -rf /var/cache/apt-cacher-ng/*
".)
If a desktop GUI program experienced instability after significant upstream version upgrade, you should suspect interference with old local configuration files created by it. If it is stable under a newly created user account, this hypothesis is confirmed. (This is a bug of packaging and usually avoided by the packager.)
To recover stability, you should move corresponding local configuration files and restart the GUI program. You may need to read old configuration file contents to recover configuration information later. (Do not erase them too quickly.)
Archive level package management systems, such as aptitude
(8) or apt-get
(1), do not even try to install packages with overlapped files using package dependencies (see Section 2.1.7, “Package dependencies”).
Errors by the package maintainer or deployment of inconsistently mixed source of archives (see Section 2.7.6, “Packages from mixed source of archives without apt-pinning”) by the system administrator may create a situation with incorrectly defined package dependencies. When you install a package with overlapped files using aptitude
(8) or apt-get
(1) under such a situation, dpkg
(1) which unpacks package ensures to return error to the calling program without overwriting existing files.
Caution | |
---|---|
The use of third party packages introduces significant system risks via maintainer scripts which are run with root privilege and can do anything to your system. The |
You can work around such broken installation by removing the old offending package, old-package
, first.
$ sudo dpkg -P old-package
When a command in the package script returns error for some reason and the script exits with error, the package management system aborts their action and ends up with partially installed packages. When a package contains bugs in its removal scripts, the package may become impossible to remove and quite nasty.
For the package script problem of "package_name
", you should look into following package scripts.
"/var/lib/dpkg/info/package_name.preinst
"
"/var/lib/dpkg/info/package_name.postinst
"
"/var/lib/dpkg/info/package_name.prerm
"
"/var/lib/dpkg/info/package_name.postrm
"
Edit the offending package script from the root using following techniques.
disable the offending line by preceding "#
"
force to return success by appending the offending line with "|| true
"
Then, follow Section 2.6, “Recovery from a broken system”.
Since dpkg
is very low level package tool, it can function under the very bad situation such as unbootable system without network connection. Let's assume foo
package was broken and needs to be replaced.
You may still find cached copies of older bug free version of foo
package in the package cache directory: "/var/cache/apt/archives/
". (If not, you can download it from archive of https://snapshot.debian.org/ or copy it from package cache of a functioning machine.)
If you can boot the system, you may install it by the following command.
# dpkg -i /path/to/foo_old_version_arch.deb
Tip | |
---|---|
If system breakage is minor, you may alternatively downgrade the whole system as in Section 2.7.11, “Emergency downgrading” using the higher level APT system. |
If your system is unbootable from hard disk, you should seek other ways to boot it.
Boot the system using the debian-installer CD in rescue mode.
Mount the unbootable system on the hard disk to "/target
".
Install older version of foo
package by the following.
# dpkg --root /target -i /path/to/foo_old_version_arch.deb
This example works even if the dpkg
command on the hard disk is broken.
Tip | |
---|---|
Any GNU/Linux system started by another system on hard disk, live GNU/Linux CD, bootable USB-key drive, or netboot can be used similarly to rescue broken system. |
If attempting to install a package this way fails due to some dependency violations and you really need to do this as the last resort, you can override dependency using dpkg
's "--ignore-depends
", "--force-depends
" and other options. If you do this, you need to make serious effort to restore proper dependency later. See dpkg
(8) for details.
Note | |
---|---|
If your system is seriously broken, you should make a full backup of system to a safe place (see Section 10.2, “Backup and recovery”) and should perform a clean installation. This is less time consuming and produces better results in the end. |
If "/var/lib/dpkg/status
" becomes corrupt for any reason, the Debian system loses package selection data and suffers severely. Look for the old "/var/lib/dpkg/status
" file at "/var/lib/dpkg/status-old
" or "/var/backups/dpkg.status.*
".
Keeping "/var/backups/
" in a separate partition may be a good idea since this directory contains lots of important system data.
For serious breakage, I recommend to make fresh re-install after making backup of the system. Even if everything in "/var/
" is gone, you can still recover some information from directories in "/usr/share/doc/
" to guide your new installation.
Reinstall minimal (desktop) system.
# mkdir -p /path/to/old/system
Mount old system at "/path/to/old/system/
".
# cd /path/to/old/system/usr/share/doc # ls -1 >~/ls1.txt # cd /usr/share/doc # ls -1 >>~/ls1.txt # cd # sort ls1.txt | uniq | less
Then you are presented with package names to install. (There may be some non-package names such as "texmf
".)
For simplicity, the source list examples in this section are presented as "/etc/apt/sources.list
" in one-line-style after the bookworm
release.
Although the maintainer name listed in "/var/lib/dpkg/available
" and "/usr/share/doc/package_name/changelog
" provide some information on "who is behind the packaging activity", the actual uploader of the package is somewhat obscure. who-uploads
(1) in the devscripts
package identifies the actual uploader of Debian source packages.
If you want to limit the download bandwidth for APT to e.g. 800Kib/sec (=100kiB/sec), you should configure APT with its configuration parameter as the following.
APT::Acquire::http::Dl-Limit "800";
The apt
package comes with its own cron script "/etc/cron.daily/apt
" to support the automatic download of packages. This script can be enhanced to perform the automatic upgrade of packages by installing the unattended-upgrades
package. These can be customized by parameters in "/etc/apt/apt.conf.d/02backup
" and "/etc/apt/apt.conf.d/50unattended-upgrades
" as described in "/usr/share/doc/unattended-upgrades/README
".
The unattended-upgrades
package is mainly intended for the security upgrade for the stable
system. If the risk of breaking an existing stable
system by the automatic upgrade is smaller than that of the system broken by the intruder using its security hole which has been closed by the security update, you should consider using this automatic upgrade with configuration parameters as the following.
APT::Periodic::Update-Package-Lists "1"; APT::Periodic::Download-Upgradeable-Packages "1"; APT::Periodic::Unattended-Upgrade "1";
If you are running an testing
or unstable
system, you do not want to use the automatic upgrade since it certainly breaks system some day. Even for such testing
or unstable
case, you may still want to download packages in advance to save time for the interactive upgrade with configuration parameters as the following.
APT::Periodic::Update-Package-Lists "1"; APT::Periodic::Download-Upgradeable-Packages "1"; APT::Periodic::Unattended-Upgrade "0";
There are stable-updates ("bookworm
-updates" during the bookworm
-as-stable
release cycle) and backports.debian.org archives which provide upgrade packages for stable
.
In order to use these archives, you list all required archives in the "/etc/apt/sources.list
" file as the following.
deb http://deb.debian.org/debian/ bookworm main non-free-firmware contrib non-free deb http://security.debian.org/debian-security bookworm-security main non-free-firmware contrib non-free deb http://deb.debian.org/debian/ bookworm-updates main non-free-firmware contrib non-free deb http://deb.debian.org/debian/ bookworm-backports main non-free-firmware contrib non-free
There is no need to set Pin-Priority value explicitly in the "/etc/apt/preferences
" file. When newer packages become available, the default configuration provides most reasonable upgrades (see Section 2.5.3, “Archive level "Release" files”).
All installed older packages are upgraded to newer ones from bookworm-updates
.
Only manually installed older packages from bookworm-backports
are upgraded to newer ones from bookworm-backports
.
Whenever you wish to install a package named "package-name
" with its dependency from bookworm-backports
archive manually, you use following command while switching target release with "-t
" option.
$ sudo apt-get install -t bookworm-backports package-name
Warning | |
---|---|
Do not install too many packages from backports.debian.org archives. It may cause package dependency complications. See Section 2.1.11, “How to cope with conflicting requirements” for alternative solutions. |
Warning | |
---|---|
You should be aware that the external package gains the root priviledge to your system. You should only use the trusted external package archive. See Section 2.1.11, “How to cope with conflicting requirements” for alternative solutions. |
You can use secure APT with Debian-compatible external package archive by adding it to the source list and its archive key file into the "/etc/apt/trusted.gpg.d/
" directory. See sources.list
(5), apt-secure
(8) and apt-key
(8).
Caution | |
---|---|
Installing packages from mixed source of archives is not supported by the official Debian distribution except for officially supported particular combinations of archives such as |
Here is an example of operations to include specific newer upstream version packages found in unstable
while tracking testing
for single occasion.
Change the "/etc/apt/sources.list
" file temporarily to single "unstable
" entry.
Run "aptitude update
".
Run "aptitude install package-name
".
Recover the original "/etc/apt/sources.list
" file for testing
.
Run "aptitude update
".
You do not create the "/etc/apt/preferences
" file nor need to worry about apt-pinning with this manual approach. But this is very cumbersome.
Caution | |
---|---|
When using mixed source of archives, you must ensure compatibility of packages by yourself since the Debian does not guarantee it. If package incompatibility exists, you may break system. You must be able to judge these technical requirements. The use of mixed source of random archives is completely optional operation and its use is not something I encourage you to use. |
General rules for installing packages from different archives are the following.
Non-binary packages ("Architecture: all
") are safer to install.
documentation packages: no special requirements
interpreter program packages: compatible interpreter must be available
Binary packages (non "Architecture: all
") usually face many road blocks and are unsafe to install.
Note | |
---|---|
In order to make a package to be safer to install, some commercial non-free binary program packages may be provided with completely statically linked libraries. You should still check ABI compatibility issues etc. for them. |
Note | |
---|---|
Except to avoid broken package for a short term, installing binary packages from non-Debian archives is generally bad idea. You should seek all available alternative safer technical solutions which are compatible with your current Debian syetem (see Section 2.1.11, “How to cope with conflicting requirements”). |
Warning | |
---|---|
Use of apt-pinning technique by a novice user is sure call for major troubles. You must avoid using this technique except when you absolutely need it. |
Without the "/etc/apt/preferences
" file, APT system choses the latest available version as the candidate version using the version string. This is the normal state and most recommended usage of APT system. All officially supported combinations of archives do not require the "/etc/apt/preferences
" file since some archives which should not be used as the automatic source of upgrades are marked as NotAutomatic and dealt properly.
Tip | |
---|---|
The version string comparison rule can be verified with, e.g., " |
When you install packages from mixed source of archives (see Section 2.7.6, “Packages from mixed source of archives without apt-pinning”) regularly, you can automate these complicated operations by creating the "/etc/apt/preferences
" file with proper entries and tweaking the package selection rule for candidate version as described in apt_preferences
(5). This is called apt-pinning.
When using apt-pinning, you must ensure compatibility of packages by yourself since the Debian does not guarantee it. The apt-pinning is completely optional operation and its use is not something I encourage you to use.
Archive level Release files (see Section 2.5.3, “Archive level "Release" files”) are used for the rule of apt_preferences
(5). Thus apt-pinning works only with "suite" name for normal Debian archives and security Debian archives. (This is different from Ubuntu archives.) For example, you can do "Pin: release a=unstable
" but can not do "Pin: release a=sid
" in the "/etc/apt/preferences
" file.
When you use non-Debian archive as a part of apt-pinning, you should check what they are intended for and also check their credibility. For example, Ubuntu and Debian are not meant to be mixed.
Note | |
---|---|
Even if you do not create the " |
Here is a simplified explanation of apt-pinning technique.
The APT system choses the highest Pin-Priority upgrading package from available package sources defined in the "/etc/apt/sources.list
" file as the candidate version package. If the Pin-Priority of the package is larger than 1000, this version restriction for upgrading is dropped to enable downgrading (see Section 2.7.11, “Emergency downgrading”).
Pin-Priority value of each package is defined by "Pin-Priority" entries in the "/etc/apt/preferences
" file or uses its default value.
Table 2.18. List of notable Pin-Priority values for apt-pinning technique.
Pin-Priority | apt-pinning effects to the package |
---|---|
1001 | install the package even if this constitutes a downgrade of the package |
990 | used as the default for the target release archive |
500 | used as the default for the normal archive |
100 | used as the default for the NotAutomatic and ButAutomaticUpgrades archive |
100 | used for the installed package |
1 | used as the default for the NotAutomatic archive |
-1 | never install the package even if recommended |
The target release archive can be set by the command line option, e.g., "apt-get install -t testing some-package
"
The NotAutomatic and ButAutomaticUpgrades archive is set by archive server having its archive level Release file (see Section 2.5.3, “Archive level "Release" files”) containing both "NotAutomatic: yes
" and "ButAutomaticUpgrades: yes
". The NotAutomatic archive is set by archive server having its archive level Release file containing only "NotAutomatic: yes
".
The apt-pinning situation of package from multiple archive sources is displayed by "apt-cache policy package
".
A line started with "Package pin:
" lists the package version of pin if association just with package is defined, e.g., "Package pin: 0.190
".
No line with "Package pin:
" exists if no association just with package is defined.
The Pin-Priority value associated just with package is listed right side of all version strings, e.g., "0.181 700
".
"0
" is listed right side of all version strings if no association just with package is defined, e.g., "0.181 0
".
The Pin-Priority values of archives (defined as "Package: *
" in the "/etc/apt/preferences
" file) are listed left side of all archive paths, e.g., "100 http://deb.debian.org/debian/ bookworm-backports/main Packages
".
Warning | |
---|---|
Use of apt-pinning technique by a novice user is sure call for major troubles. You must avoid using this technique except when you absolutely need it. |
If you wish not to pull in particular packages automatically by "Recommends", you must create the "/etc/apt/preferences
" file and explicitly list all those packages at the top of it as the following.
Package: package-1 Pin: version * Pin-Priority: -1 Package: package-2 Pin: version * Pin-Priority: -1
Warning | |
---|---|
Use of apt-pinning technique by a novice user is sure call for major troubles. You must avoid using this technique except when you absolutely need it. |
Here is an example of apt-pinning technique to include specific newer upstream version packages found in unstable
regularly upgraded while tracking testing
. You list all required archives in the "/etc/apt/sources.list
" file as the following.
deb http://deb.debian.org/debian/ testing main contrib non-free deb http://deb.debian.org/debian/ unstable main contrib non-free deb http://security.debian.org/debian-security testing-security main contrib
Set the "/etc/apt/preferences
" file as the following.
Package: * Pin: release a=unstable Pin-Priority: 100
When you wish to install a package named "package-name
" with its dependencies from unstable
archive under this configuration, you issue the following command which switches target release with "-t
" option (Pin-Priority of unstable
becomes 990).
$ sudo apt-get install -t unstable package-name
With this configuration, usual execution of "apt-get upgrade
" and "apt-get dist-upgrade
" (or "aptitude safe-upgrade
" and "aptitude full-upgrade
") upgrades packages which were installed from testing
archive using current testing
archive and packages which were installed from unstable
archive using current unstable
archive.
Caution | |
---|---|
Be careful not to remove " |
Tip | |
---|---|
I usually edit the " |
Tip | |
---|---|
If " |
If you wish to track particular packages in unstable
automatically without initial "-t unstable
" installation, you must create the "/etc/apt/preferences
" file and explicitly list all those packages at the top of it as the following.
Package: package-1 Pin: release a=unstable Pin-Priority: 700 Package: package-2 Pin: release a=unstable Pin-Priority: 700
These set Pin-Priority value for each specific package. For example, in order to track the latest unstable
version of this "Debian Reference" in English, you should have following entries in the "/etc/apt/preferences
" file.
Package: debian-reference-en Pin: release a=unstable Pin-Priority: 700 Package: debian-reference-common Pin: release a=unstable Pin-Priority: 700
Tip | |
---|---|
This apt-pinning technique is valid even when you are tracking |
Warning | |
---|---|
Use of apt-pinning technique by a novice user is sure call for major troubles. You must avoid using this technique except when you absolutely need it. |
Here is another example of apt-pinning technique to include specific newer upstream version packages found in experimental
while tracking unstable
. You list all required archives in the "/etc/apt/sources.list
" file as the following.
deb http://deb.debian.org/debian/ unstable main contrib non-free deb http://deb.debian.org/debian/ experimental main contrib non-free deb http://security.debian.org/ testing-security main contrib
The default Pin-Priority value for experimental
archive is always 1 (<<100) since it is NotAutomatic archive (see Section 2.5.3, “Archive level "Release" files”). There is no need to set Pin-Priority value explicitly in the "/etc/apt/preferences
" file just to use experimental
archive unless you wish to track particular packages in it automatically for next upgrading.
Warning | |
---|---|
Use of apt-pinning technique by a novice user is sure call for major troubles. You must avoid using this technique except when you absolutely need it. |
Caution | |
---|---|
Downgrading is not officially supported by the Debian by design. It should be done only as a part of emergency recovery process. Despite of this situation, it is known to work well in many incidents. For critical systems, you should backup all important data on the system after the recovery operation and re-install the new system from the scratch. |
You may be lucky to downgrade from newer archive to older archive to recover from broken system upgrade by manipulating candidate version (see Section 2.7.7, “Tweaking candidate version with apt-pinning”). This is lazy alternative to tedious actions of many "dpkg -i broken-package_old-version.deb
" commands (see Section 2.6.6, “Rescue with the dpkg command”).
Search lines in the "/etc/apt/sources.list
" file tracking unstable
as the following.
deb http://deb.debian.org/debian/ sid main contrib non-free
Replace it with the following to track testing
.
deb http://deb.debian.org/debian/ trixie main contrib non-free
Set the "/etc/apt/preferences
" file as the following.
Package: * Pin: release a=testing Pin-Priority: 1010
Run "apt-get update; apt-get dist-upgrade
" to force downgrading of packages across the system.
Remove this special "/etc/apt/preferences
" file after this emergency downgrading.
Tip | |
---|---|
It is a good idea to remove (not purge!) as much packages to minimize dependency problems. You may need to manually remove and install some packages to get system downgraded. Linux kernel, bootloader, udev, PAM, APT, and networking related packages and their configuration files require special attention. |
If you are to compile a program from source to replace the Debian package, it is best to make it into a real local debianized package (*.deb
) and use private archive.
If you chose to compile a program from source and to install them under "/usr/local
" instead, you may need to use equivs
as a last resort to satisfy the missing package dependency.
Package: equivs Priority: optional Section: admin Description: Circumventing Debian package dependencies This package provides a tool to create trivial Debian packages. Typically these packages contain only dependency information, but they can also include normal installed files like other packages do. . One use for this is to create a metapackage: a package whose sole purpose is to declare dependencies and conflicts on other packages so that these will be automatically installed, upgraded, or removed. . Another use is to circumvent dependency checking: by letting dpkg think a particular package name and version is installed when it isn't, you can work around bugs in other packages' dependencies. (Please do still file such bugs, though.)
Caution | |
---|---|
There is no gurantee for the procedure descried here to work without extra manual efforts for system differences. |
For partial upgrades of the stable
system, rebuilding a package within its environment using the source package is desirable. This avoids massive package upgrades due to their dependencies.
Add the following entries to the "/etc/apt/sources.list
" of a stable
system.
deb-src http://deb.debian.org/debian unstable main contrib non-free
Install required packages for the compilation and download the source package as the following.
# apt-get update # apt-get dist-upgrade # apt-get install fakeroot devscripts build-essential # apt-get build-dep foo $ apt-get source foo $ cd foo*
Update some tool chain packages such as dpkg
, and debhelper
from the
backport packages if they are required for the backporting.
Execute the following.
$ dch -i
Bump package version, e.g. one appended with "+bp1
" in "debian/changelog
"
Build packages and install them to the system as the following.
$ debuild $ cd .. # debi foo*.changes
Since mirroring whole subsection of Debian archive wastes disk space and network bandwidth, deployment of a local proxy server for APT is desirable consideration when you administer many systems on LAN. APT can be configure to use generic web (http) proxy servers such as squid
(see Section 6.5, “Other network application servers”) as described in apt.conf
(5) and in "/usr/share/doc/apt/examples/configure-index.gz
". The "$http_proxy
" environment variable can be used to override proxy server setting in the "/etc/apt/apt.conf
" file.
There are proxy tools specially for Debian archive. You should check BTS before using them.
Table 2.19. List of the proxy tools specially for Debian archive
package | popcon | size | description |
---|---|---|---|
approx
|
V:0, I:0 | 7124 | caching proxy server for Debian archive files (compiled OCaml program) |
apt-cacher
|
V:0, I:0 | 266 | Caching proxy for Debian package and source files (Perl program) |
apt-cacher-ng
|
V:4, I:4 | 1816 | Caching proxy for distribution of software packages (compiled C++ program) |
Caution | |
---|---|
When Debian reorganizes its archive structure, these specialized proxy tools tend to require code rewrites by the package maintainer and may not be functional for a while. On the other hand, generic web (http) proxy servers are more robust and easier to cope with such changes. |
You can learn more on the package management from following documentations.
Primary documentations on the package management:
aptitude
(8), dpkg
(1), tasksel
(8), apt
(8), apt-get
(8), apt-config
(8), apt-secure
(8), sources.list
(5), apt.conf
(5), and apt_preferences
(5);
"/usr/share/doc/apt-doc/guide.html/index.html
" and "/usr/share/doc/apt-doc/offline.html/index.html
" from the apt-doc
package; and
"/usr/share/doc/aptitude/html/en/index.html
" from the aptitude-doc-en
package.
Official and detailed documentations on the Debian archive:
Tutorial for building of a Debian package for Debian users: