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1 APT
2 ===
3
4 apt is the main commandline package manager for Debian and its derivatives.
5 It provides commandline tools for searching and managing as well as querying
6 information about packages as well as low-level access to all features
7 provided by the libapt-pkg and libapt-inst libraries which higher-level
8 package managers can depend upon.
9
10 Included tools are:
11
12 * apt-get for retrieval of packages and information about them
13 from authenticated sources and for installation, upgrade and
14 removal of packages together with their dependencies
15 * apt-cache for querying available information about installed
16 as well as installable packages
17 * apt-cdrom to use removable media as a source for packages
18 * apt-config as an interface to the configuration settings
19 * apt-key as an interface to manage authentication keys
20 * apt-extracttemplates to be used by debconf to prompt for configuration
21 questions before installation.
22 * apt-ftparchive creates Packages and other index files
23 needed to publish an archive of debian packages
24 * apt-sortpkgs is a Packages/Sources file normalizer.
25
26 The libraries libapt-pkg and libapt-inst are also maintained as part of this project,
27 alongside various additional binaries like the acquire-methods used by them.
28 Bindings for Python ([python-apt](https://tracker.debian.org/pkg/python-apt)) and
29 Perl ([libapt-pkg-perl](https://tracker.debian.org/pkg/libapt-pkg-perl)) are available as separated projects.
30
31 Discussion happens mostly on [the mailinglist](mailto:deity@lists.debian.org) ([archive](https://lists.debian.org/deity/)) and on [IRC](irc://irc.oftc.net/debian-apt).
32 Our bugtracker as well as a general overview can be found at the [Debian Tracker page](https://tracker.debian.org/pkg/apt).
33
34
35 Contributing
36 ------------
37 APT is maintained in git, the official repository being located at
38 `git://anonscm.debian.org/apt/apt.git` ([webgit](https://anonscm.debian.org/git/apt/apt.git)),
39 but also available at other locations like [GitHub](https://github.com/Debian/apt).
40
41 The default branch is `master`, other branches targeted at different
42 derivatives and releases being used as needed. Various topic branches in
43 different stages of completion might be branched of from those, which you
44 are encouraged to do as well.
45
46 ### Coding
47
48 APT uses cmake. To start building, you need to run
49
50 cmake <path to source directory>
51
52 from a build directory. For example, if you want to build in the source tree,
53 run:
54
55 cmake .
56
57 Then you can use make as you normally would (pass -j <count> to perform <count>
58 jobs in parallel).
59
60 You can also use the Ninja generator of cmake, to do that pass
61 -G Ninja
62 to the cmake invocation, and then use ninja instead of make.
63
64 The source code uses in most parts a relatively uncommon indent convention,
65 namely 3 spaces with 8 space tab (see [doc/style.txt](https://anonscm.debian.org/git/apt/apt.git/tree/doc/style.txt) for more on this).
66 Adhering to it avoids unnecessary code-churn destroying history (aka: `git blame`)
67 and you are therefore encouraged to write patches in this style.
68 Your editor can surely help you with this, for vim the settings would be
69 `setlocal shiftwidth=3 noexpandtab tabstop=8`
70 (the later two are the default configuration and could therefore be omitted).
71
72 ### Translations
73
74 While we welcome contributions here, we highly encourage you to contact the [Debian Internationalization (i18n) team](https://wiki.debian.org/Teams/I18n).
75 Various language teams have formed which can help you creating, maintaining
76 and improving a translation, while we could only do a basic syntax check of the
77 file format…
78
79 Further more, Translating APT is split into two independent parts:
80 The program translation, meaning the messages printed by the tools,
81 as well as the manpages and other documentation shipped with APT.
82
83 ### Bug triage
84
85 Software tools like APT which are used by thousands of users every
86 day have a steady flow of incoming bugreports. Not all of them are really
87 bugs in APT: It can be packaging bugs like failing maintainer scripts a
88 user reports against apt, because apt was the command he executed leading
89 to this failure or various wishlist items for new features. Given enough time
90 also the occasional duplicate enters the system.
91 Our bugtracker is therefore full with open bugreports which are waiting for you! ;)
92
93 Testing
94 -------
95
96 ### Manual execution
97
98 When you make changes and want to run them manually, you can just do so. CMake
99 automatically inserts an rpath so the binaries find the correct libraries.
100
101 ### Integration tests
102
103 There is a extensive integration testsuite available which can be run via:
104
105 $ ./test/integration/run-tests
106
107 While these tests are not executed at package build-time as they require additional
108 dependencies, the repository contains the configuration needed to run them on [Travis CI](https://travis-ci.org/)
109 as well as via autopkgtests e.g. on [Debian Continuous Integration](http://ci.debian.net/?q=apt#package/apt).
110
111 A testcase here is a shellscript embedded in a framework creating an environment in which
112 apt tools can be used naturally without root-rights to test every aspect of its behavior
113 itself as well as in conjunction with dpkg and other tools while working with packages.
114
115
116 ### Unit tests
117
118 These tests are gtest-dev based, executed by ctest, reside in `./test/libapt`
119 and can be run with `make test`. They are executed at package build-time, but
120 not by `make`. CTest by default does not show the output of tests, even if they
121 failed, so to see more details you can also run them with `ctest --verbose`.
122
123 Debugging
124 ---------
125
126 APT does many things, so there is no central debug mode which could be
127 activated. It uses instead various config-options to activate debug output
128 in certain areas. The following describes some common scenarios and generally
129 useful options, but is in no way exhaustive.
130
131 Note that you should *NEVER* use these settings as root to avoid accidents.
132 Similation mode (`-s`) is usually sufficient to help you run apt as a non-root user.
133
134 ### Using different state files
135
136 If a dependency solver bug is reported, but can't be reproduced by the
137 triager easily, it is beneficial to ask the reporter for the
138 `/var/lib/dpkg/status` file, which includes the packages installed on the
139 system and in which version. Such a file can then be used via the option
140 `dir::state::status`. Beware of different architecture settings!
141 Bugreports usually include this information in the template. Assuming you
142 already have the `Packages` files for the architecture (see `sources.list`
143 manpage for the `arch=` option) you can change to a different architecture
144 with a config file like:
145
146 APT::Architecture "arch1";
147 #clear APT::Architectures;
148 APT:: Architectures { "arch1"; "arch2"; }
149
150 If a certain mirror state is needed, see if you can reproduce it with [snapshot.debian.org](http://snapshot.debian.org/).
151 Your sources.list file (`dir::etc::sourcelist`) has to be correctly mention the repository,
152 but if it does, you can use different downloaded archive state files via `dir::state::lists`.
153
154 In case manually vs. automatically installed matters, you can ask the reporter for
155 the `/var/lib/apt/extended_states` file and use it with `dir::state::extended_states`.
156
157 ### Dependency resolution
158
159 APT works in its internal resolver in two stages: First all packages are visited
160 and marked for installation, keep back or removal. Option `Debug::pkgDepCache::Marker`
161 shows this. This also decides which packages are to be installed to satisfy dependencies,
162 which can be seen by `Debug::pkgDepCache::AutoInstall`. After this is done, we might
163 be in a situation in which two packages want to be installed, but only on of them can be.
164 It is the job of the pkgProblemResolver to decide which of two packages 'wins' and can
165 therefore decide what has to happen. You can see the contenders as well as their fight and
166 the resulting resolution with `Debug::pkgProblemResolver`.
167
168 ### Downloading files
169
170 Various binaries (called 'methods') are tasked with downloading files. The Acquire system
171 talks to them via simple text protocol. Depending on which side you want to see, either
172 `Debug::pkgAcquire::Worker` or `Debug::Acquire::http` (or similar) will show the messages.
173
174 The integration tests use a simple self-built webserver which also logs. If you find that
175 the http(s) methods do not behave like they should be try to implement this behavior in the
176 webserver for simpler and more controlled testing.
177
178 ### Installation order
179
180 Dependencies are solved, packages downloaded: Everything read for the installation!
181 The last step in the chain is often forgotten, but still very important:
182 Packages have to be installed in a particular order so that their dependencies are
183 satisfied, but at the same time you don't want to install very important and optional
184 packages at the same time if possible, so that a broken optional package does not
185 block the correct installation of very important packages. Which option to use depends on
186 if you are interested in the topology sorting (`Debug::pkgOrderList`), the dependency-aware
187 cycle and unconfigured prevention (`Debug::pkgPackageManager`) or the actual calls
188 to dpkg (`Debug::pkgDpkgPm`).