5. Control files and their fields¶
The package management system manipulates data represented in a common
format, known as control data, stored in control files. Control
files are used for source packages, binary packages and the .changes
files which control the installation of uploaded files. 1
5.1. Syntax of control files¶
A control file consists of one or more stanzas of fields. 2 The stanzas are separated by empty lines. Parsers may accept lines consisting solely of spaces and tabs as stanza separators, but control files should use empty lines. Some control files allow only one stanza; others allow several, in which case each stanza usually refers to a different package. (For example, in source packages, the first stanza refers to the source package, and later stanzas refer to binary packages generated from the source.) The ordering of the stanzas in control files is significant.
Each stanza consists of a series of data fields. Each field consists
of the field name followed by a colon and then the data/value associated
with that field. The field name is composed of US-ASCII characters
excluding control characters, space, and colon (i.e., characters in the
ranges U+0021 (!
) through U+0039 (9
), and U+003B (;
) through
U+007E (~
), inclusive). Field names must not begin with the comment
character (U+0023 #
), nor with the hyphen character (U+002D -
).
The field ends at the end of the line or at the end of the last continuation line (see below). Horizontal whitespace (spaces and tabs) may occur immediately before or after the value and is ignored there; it is conventional to put a single space after the colon. For example, a field might be:
Package: libc6
the field name is Package
and the field value libc6
.
Empty field values are only permitted in source package control files
(debian/control
). Such fields are ignored.
A stanza must not contain more than one instance of a particular field name.
There are three types of fields:
- simple
The field, including its value, must be a single line. Folding of the field is not permitted. This is the default field type if the definition of the field does not specify a different type.
- folded
The value of a folded field is a logical line that may span several lines. The lines after the first are called continuation lines and must start with a space or a tab. Whitespace, including any newlines, is not significant in the field values of folded fields. 3
- multiline
The value of a multiline field may comprise multiple continuation lines. The first line of the value, the part on the same line as the field name, often has special significance or may have to be empty. Other lines are added following the same syntax as the continuation lines of the folded fields. Whitespace, including newlines, is significant in the values of multiline fields.
Whitespace must not appear inside names (of packages, architectures, files or anything else) or version numbers, or between the characters of multi-character version relationships.
The presence and purpose of a field, and the syntax of its value, may differ between types of control files.
Field names are not case-sensitive, but it is usual to capitalize the field names using mixed case as shown below. Field values are case-sensitive unless the description of the field says otherwise.
Stanza separators (empty lines), and lines consisting only of U+0020
SPACE and U+0009 TAB, are not allowed within field values or between
fields. Empty lines in field values are usually escaped by representing
them by a U+0020 SPACE followed by a U+002E (.
).
Lines starting with U+0023 (#
), without any preceding whitespace,
are comment lines that are only permitted in source package control
files (debian/control
). These comment lines are ignored, even
between two continuation lines. They do not end logical lines.
All control files must be encoded in UTF-8.
5.2. Source package control files – debian/control
¶
The debian/control
file contains the most vital (and
version-independent) information about the source package and about the
binary packages it creates.
The first stanza of the control file contains information about the source package in general. The subsequent stanzas each describe a binary package that the source tree builds. Each binary package built from this source package has a corresponding stanza, except for any automatically-generated debug packages that do not require one.
The fields in the general stanza (the first one, for the source package) are:
Source (mandatory)
Maintainer (mandatory)
Section (recommended)
Priority (recommended)
Standards-Version (mandatory)
The fields in the binary package stanzas are:
Package (mandatory)
Architecture (mandatory)
Section (recommended)
Priority (recommended)
Description (mandatory)
The syntax and semantics of the fields are described below.
These fields are used by dpkg-gencontrol
to generate control files
for binary packages (see below), by dpkg-genchanges
to generate the
.changes
file to accompany the upload, and by dpkg-source
when
it creates the .dsc
source control file as part of a source archive.
Some fields are folded in debian/control
, but not in any other
control file. These tools are responsible for removing the line breaks
from such fields when using fields from debian/control
to generate
other control files. They are also responsible for discarding empty
fields.
The fields here may contain variable references - their values will be
substituted by dpkg-gencontrol
, dpkg-genchanges
or
dpkg-source
when they generate output control files. See
Variable substitutions: debian/substvars for details.
5.3. Binary package control files – DEBIAN/control
¶
The DEBIAN/control
file contains the most vital (and
version-dependent) information about a binary package. It consists of a
single stanza.
The fields in this file are:
Package (mandatory)
Version (mandatory)
Section (recommended)
Priority (recommended)
Architecture (mandatory)
Maintainer (mandatory)
Description (mandatory)
5.4. Debian source control files – .dsc
¶
This file consists of a single stanza, possibly surrounded by an OpenPGP signature. The fields of that stanza are listed below. Their syntax is described above, in Syntax of control files.
Format (mandatory)
Source (mandatory)
Version (mandatory)
Maintainer (mandatory)
Standards-Version (mandatory)
Package-List (recommended)
Checksums-Sha1 and Checksums-Sha256 (mandatory)
Files (mandatory)
The Debian source control file is generated by dpkg-source
when it
builds the source archive, from other files in the source package,
described above. When unpacking, it is checked against the files and
directories in the other parts of the source package.
5.5. Debian changes files – .changes
¶
The .changes
files are used by the Debian archive maintenance
software to process updates to packages. They consist of a single
stanza, possibly surrounded by an OpenPGP signature. That stanza
contains information from the debian/control
file and other data
about the source package gathered via debian/changelog
and
debian/rules
.
.changes
files have a format version that is incremented whenever
the documented fields or their meaning change. This document describes
format 1.8.
The fields in this file are:
Format (mandatory)
Date (mandatory)
Source (mandatory)
Binary (mandatory)
Architecture (mandatory)
Version (mandatory)
Distribution (mandatory)
Urgency (recommended)
Maintainer (mandatory)
Description (mandatory)
Changes (mandatory)
Checksums-Sha1 and Checksums-Sha256 (mandatory)
Files (mandatory)
5.6. List of fields¶
5.6.1. Source
¶
This field identifies the source package name.
In debian/control
or a .dsc
file, this field must contain only
the name of the source package.
In a binary package control file or a .changes
file, the source
package name may be followed by a version number in parentheses. 4
This version number may be omitted (and is, by dpkg-gencontrol
) if
it has the same value as the Version
field of the binary package in
question. The field itself may be omitted from a binary package control
file when the source package has the same name and version as the binary
package.
Package names (both source and binary, see
Package) must consist only of lower case
letters (a-z
), digits (0-9
), plus (+
) and minus (-
)
signs, and periods (.
). They must be at least two characters long
and must start with an alphanumeric character.
5.6.2. Maintainer
¶
The package maintainer’s name and email address. The name must come
first, then the email address inside angle brackets <>
(in RFC822
format).
If the maintainer’s name contains a full stop then the whole field will not work directly as an email address due to a misfeature in the syntax specified in RFC822; a program using this field as an address must check for this and correct the problem if necessary (for example by putting the name in round brackets and moving it to the end, and bringing the email address forward).
See The maintainer of a package for additional requirements and information about package maintainers.
5.6.3. Uploaders
¶
List of the names and email addresses of co-maintainers of the package, if any. If the package has other maintainers besides the one named in the Maintainer field, their names and email addresses should be listed here. The format of each entry is the same as that of the Maintainer field, and multiple entries must be comma separated.
This is normally an optional field, but if the Maintainer
control
field names a group of people and a shared email address, the
Uploaders
field must be present and must contain at least one human
with their personal email address.
The Uploaders field in debian/control
can be folded.
5.6.4. Changed-By
¶
The name and email address of the person who prepared this version of the package, usually a maintainer. The syntax is the same as for the Maintainer field.
5.6.5. Section
¶
This field specifies an application area into which the package has been classified. See Sections.
When it appears in the debian/control
file, it gives the value for
the subfield of the same name in the Files
field of the .changes
file. It also gives the default for the same field in the binary
packages.
5.6.6. Priority
¶
This field represents how important it is that the user have the package installed. See Priorities.
When it appears in the debian/control
file, it gives the value for
the subfield of the same name in the Files
field of the .changes
file. It also gives the default for the same field in the binary
packages.
5.6.7. Package
¶
The name of the binary package.
Binary package names must follow the same syntax and restrictions as source package names. See Source for the details.
5.6.8. Architecture
¶
Depending on context and the control file used, the Architecture
field can include the following sets of values:
A unique single word identifying a Debian machine architecture as described in Architecture specification strings.
An architecture wildcard identifying a set of Debian machine architectures, see Architecture wildcards.
any
matches all Debian machine architectures and is the most frequently used.all
, which indicates an architecture-independent package.source
, which indicates a source package.
In the main debian/control
file in the source package, this field
may contain the special value all
, the special architecture wildcard
any
, or a list of specific and wildcard architectures separated by
spaces. If all
or any
appears, that value must be the entire
contents of the field. Most packages will use either all
or any
.
Specifying a specific list of architectures indicates that the source
will build an architecture-dependent package only on architectures
included in the list. Specifying a list of architecture wildcards
indicates that the source will build an architecture-dependent package
on only those architectures that match any of the specified architecture
wildcards. Specifying a list of architectures or architecture wildcards
other than any
is for the minority of cases where a program is not
portable or is not useful on some architectures. Where possible, the
program should be made portable instead.
In the Debian source control file .dsc
, this field contains a list
of architectures and architecture wildcards separated by spaces. When
the list contains the architecture wildcard any
, the only other
value allowed in the list is all
.
The list may include (or consist solely of) the special value all
.
In other words, in .dsc
files unlike the debian/control
, all
may occur in combination with specific architectures. The
Architecture
field in the Debian source control file .dsc
is
generally constructed from the Architecture
fields in the
debian/control
in the source package.
Specifying only any
indicates that the source package isn’t
dependent on any particular architecture and should compile fine on any
one. The produced binary package(s) will be specific to whatever the
current build architecture is.
Specifying only all
indicates that the source package will only
build architecture-independent packages.
Specifying any all
indicates that the source package isn’t dependent
on any particular architecture. The set of produced binary packages will
include at least one architecture-dependent package and one
architecture-independent package.
Specifying a list of architectures or architecture wildcards indicates
that the source will build an architecture-dependent package, and will
only work correctly on the listed or matching architectures. If the
source package also builds at least one architecture-independent
package, all
will also be included in the list.
In a .changes
file, the Architecture
field lists the
architecture(s) of the package(s) currently being uploaded. This will be
a list; if the source for the package is also being uploaded, the
special entry source
is also present. all
will be present if any
architecture-independent packages are being uploaded. Architecture
wildcards such as any
must never occur in the Architecture
field
in the .changes
file.
See Main building script: debian/rules for information on how to get the architecture for the build process.
5.6.9. Essential
¶
This is a boolean field which may occur only in the control file of a binary package or in a per-package fields stanza of a source package control file.
If set to yes
then the package management system will refuse to
remove the package (upgrading and replacing it is still possible). The
other possible value is no
, which is the same as not having the
field at all.
5.6.10. Package interrelationship fields: Depends
, Pre-Depends
, Recommends
, Suggests
, Breaks
, Conflicts
, Provides
, Replaces
, Enhances
¶
These fields describe the package’s relationships with other packages. Their syntax and semantics are described in Declaring relationships between packages.
5.6.11. Standards-Version
¶
The most recent version of the standards (the policy manual and associated texts) with which the package complies. See Standards conformance.
The version number has four components: major and minor version number and major and minor patch level. When the standards change in a way that requires every package to change the major number will be changed. Significant changes that will require work in many packages will be signaled by a change to the minor number. The major patch level will be changed for any change to the meaning of the standards, however small; the minor patch level will be changed when only cosmetic, typographical or other edits are made which neither change the meaning of the document nor affect the contents of packages.
Thus only the first three components of the policy version are significant in the Standards-Version control field, and so either these three components or all four components may be specified. 5
udebs and source packages that only produce udebs do not use
Standards-Version
.
5.6.12. Version
¶
The version number of a package. The format is:
[epoch:]upstream_version[-debian_revision]
.
The three components here are:
epoch
This is a single (generally small) unsigned integer. It may be omitted, in which case zero is assumed.
Epochs can help when the upstream version numbering scheme changes, but they must be used with care. You should not change the epoch, even in experimental, without getting consensus on debian-devel first.
upstream_version
This is the main part of the version number. It is usually the version number of the original (“upstream”) package from which the
.deb
file has been made, if this is applicable. Usually this will be in the same format as that specified by the upstream author(s); however, it may need to be reformatted to fit into the package management system’s format and comparison scheme.The comparison behavior of the package management system with respect to the
upstream_version
is described below. Theupstream_version
portion of the version number is mandatory.The
upstream_version
must contain only alphanumerics 6 and the characters.
+
-
~
(full stop, plus, hyphen, tilde) and should start with a digit. If there is nodebian_revision
then hyphens are not allowed.debian_revision
This part of the version number specifies the version of the Debian package based on the upstream version. It must contain only alphanumerics and the characters
+
.
~
(plus, full stop, tilde) and is compared in the same way as theupstream_version
is.It is conventional to restart the
debian_revision
at1
each time theupstream_version
is increased.The package management system will break the version number apart at the last hyphen in the string (if there is one) to determine the
upstream_version
anddebian_revision
. The absence of adebian_revision
is equivalent to adebian_revision
of0
.Presence of the
debian_revision
part indicates this package is a non-native package (see Source packages). Absence indicates the package is a native package.
When comparing two version numbers, first the epoch of each are
compared, then the upstream_version
if epoch is equal, and then
debian_revision
if upstream_version
is also equal. epoch is compared
numerically. The upstream_version
and debian_revision
parts are
compared by the package management system using the following algorithm:
The strings are compared from left to right.
First the initial part of each string consisting entirely of non-digit
characters is determined. These two parts (one of which may be empty)
are compared lexically. If a difference is found it is returned. The
lexical comparison is a comparison of ASCII values modified so that all
the letters sort earlier than all the non-letters and so that a tilde
sorts before anything, even the end of a part. For example, the
following parts are in sorted order from earliest to latest: ~~
,
~~a
, ~
, the empty part, a
. 7
Then the initial part of the remainder of each string which consists entirely of digit characters is determined. The numerical values of these two parts are compared, and any difference found is returned as the result of the comparison. For these purposes an empty string (which can only occur at the end of one or both version strings being compared) counts as zero.
These two steps (comparing and removing initial non-digit strings and initial digit strings) are repeated until a difference is found or both strings are exhausted.
5.6.12.1. Epochs should be used sparingly¶
Note that the purpose of epochs is to cope with situations where the upstream version numbering scheme changes and to allow us to leave behind serious mistakes. If you think that increasing the epoch is the right solution, you should consult debian-devel and get consensus before doing so (even in experimental).
Epochs should not be used when a package needs to be rolled back.
In that case, use the +really
convention: for example, if you
uploaded 2.3-3
and now you need to go backwards to upstream 2.2,
call your reverting upload something like 2.3+really2.2-1
.
Eventually, when we upload upstream 2.4, the +really
part can go away.
Epochs are also not intended to cope with version
numbers containing strings of letters which the package management
system cannot interpret (such as ALPHA
or pre-
), or with silly
orderings. 8
5.6.12.2. Special version conventions¶
The following special version numbering conventions are used in the Debian archive:
The absence of
debian_revision
, and therefore of a hyphen in the version number, indicates that the package is native.The presence of
+really
in theupstream_version
component indicates that a newer upstream version has been rolled back to an older upstream version. The part of theupstream_version
component following+really
is the true upstream version. See Epochs should be used sparingly for an example of when this is used.
Non-maintainer uploads:
debian_revision
components ending in.
(period) followed by a number indicate this version of the non-native package was uploaded by someone other than the maintainer (an NMU or non-maintainer upload). This is used for a upload including a source package; for uploads of only binary packages without source changes, see the binary NMU convention below.upstream_version
components in native packages ending in+nmu
followed by a number indicate an NMU of a native package. As with the convention for non-native packages, this is used for an upload including a source package, not for uploads of only binary packages without source changes.upstream_version
components in native packages ordebian_revision
components in non-native packages ending in+b
followed by a number indicate a binary NMU: an upload of a binary package without any source changes and hence without any corresponding source package upload or version change.
Stable updates:
debian_revision
components in non-native packages ending indebNuX
also indicate a stable update. Either~
or+
will be used before this string depending on the details of the update.N
is the major version number of the Debian stable release to which the package was uploaded, andX
is a number, starting at 1, that is increased for each stable upload of this package.There are three cases for non-native packages:
For stable updates that use the same upstream version, the
debian_revision
component will end in+debNuX
. The portion of the version before that string is the original package version in the stable release.For stable updates to a new upstream version that is based on a newer unstable package, the
debian_revision
component will end in~debNuX
. The portion before that string will be the unstable version on which the package is based.If a stable update is based on a new upstream version but is not based on a newer unstable package, the convention is to form the version number by taking the upstream version, appending
-0
, and then appending+debNuX
(so thedebian_revision
component will be0+debNuX
).
In all cases, these versions are chosen so that they will sort earlier than a subsequent unstable package of the same upstream version and thus that the stable package will upgrade to a newer version during a subsequent system upgrade.
For example, suppose Debian 10 released with a package with version
1.4-5
. If that package later receives a stable update in Debian 10 that uses the same upstream version, the first update would have the version1.4-5+deb10u1
. A subsequent update would have version1.4-5+deb10u2
.If instead the package receives a stable update based on a
1.5-1
unstable package, the first such stable update would have the version1.5-1~deb10u1
and a subsequent update would have the version1.5-1~deb10u2
.If there were no unstable
1.5-1
package, but there were a stable update to an upstream 1.5 release, the first such stable update would have the version1.5-0+deb10u1
.upstream_version
components in native packages ending in+debNuX
indicate a stable update. This is a version of the package uploaded directly to a stable release, and the version is chosen to sort before any later version of the package uploaded to Debian’s unstable or a later stable distribution. As with non-native packages,N
is the major version number of the Debian stable release to which the package was uploaded, andX
is a number, starting at 1, that is increased for each stable upload of this package.For example, suppose Debian 10 released with a package with version
1.4
. The first stable update of that package would have the version1.4+deb10u1
, and a subsequent update would have the version1.4+deb10u2
. These versions are chosen to sort before1.5
(the next unstable version) or1.4+deb11u1
(a stable update to a subsequent Debian 11 release).
Backports:
upstream_version
components in native packages ordebian_revision
components in non-native packages ending in~bpoNuX
indicate a backport of a version of the package to an older stable release. The part of the version before~bpo
is the version of the package being backported,N
is the major version number of the Debian stable release to which the package was backported, andX
is a number, starting at 1, that is increased for each revision of the backport of that package version. The rationale is the same as for stable updates, with the additional goal of ensuring a backported version sorts earlier than a stable update with the same upstream version.Be aware that the stable update and backport conventions can stack. If, for example, Debian 10 contains a package with version
1.4-5+deb10u1
and that package is backported to Debian 9, the version of the Debian 9 backport would be1.4-5+deb10u1~bpo9u1
(although this scenario is rare).
This list of version conventions is not exhaustive.
5.6.13. Description
¶
In a source or binary control file, the Description
field contains a
description of the binary package, consisting of two parts, the synopsis
or the short description, and the long description. It is a multiline
field with the following format:
Description: single line synopsis
extended description over several lines
The lines in the extended description can have these formats:
Those starting with a single space are part of a paragraph. Successive lines of this form will be word-wrapped when displayed. The leading space will usually be stripped off. The line must contain at least one non-whitespace character.
Those starting with two or more spaces. These will be displayed verbatim. If the display cannot be panned horizontally, the displaying program will line wrap them “hard” (i.e., without taking account of word breaks). If it can they will be allowed to trail off to the right. None, one or two initial spaces may be deleted, but the number of spaces deleted from each line will be the same (so that you can have indenting work correctly, for example). The line must contain at least one non-whitespace character.
Those containing a single space followed by a single full stop character. These are rendered as blank lines. This is the only way to get a blank line. 9
Those containing a space, a full stop and some more characters. These are for future expansion. Do not use them.
Do not use tab characters. Their effect is not predictable.
See The description of a package for further information on this.
In a .changes
file, the Description
field contains a summary of
the descriptions for the packages being uploaded. For this case, the
first line of the field value (the part on the same line as
Description:
) is always empty. It is a multiline field, with one
line per package. Each line is indented by one space and contains the
name of a binary package, a space, a hyphen (-
), a space, and the
short description line from that package.
5.6.14. Distribution
¶
In a .changes
file or parsed changelog output this contains the
(space-separated) name(s) of the distribution(s) where this version of
the package should be installed. Valid distributions are determined by
the archive maintainers. 10 The Debian archive software only
supports listing a single distribution. Migration of packages to other
distributions is handled outside of the upload process.
5.6.15. Date
¶
This field includes the date the package was built or last edited. It
must be in the same format as the date in a debian/changelog
entry.
The value of this field is usually extracted from the
debian/changelog
file - see Debian changelog: debian/changelog).
5.6.16. Format
¶
In .changes
files, this field declares the format version of
that file. The syntax of the field value is the same as that of a
package version number except that no epoch or
Debian revision is allowed. The format described in this document is
1.8.
In .dsc
Debian source control files, this field declares the format of the source
package. The field value is used by programs acting on a source
package to interpret the list of files in the source package and
determine how to unpack it. The syntax of the field value is a numeric
major revision, a period, a numeric minor revision, and then an
optional subtype after whitespace, which if specified is an
alphanumeric word in parentheses. The subtype is optional in the
syntax but may be mandatory for particular source format revisions.
11
5.6.17. Urgency
¶
This is a description of how important it is to upgrade to this version
from previous ones. It consists of a single keyword taking one of the
values low
, medium
, high
, emergency
, or critical
12 (not case-sensitive) followed by an optional commentary
(separated by a space) which is usually in parentheses. For example:
Urgency: low (HIGH for users of diversions)
The value of this field is usually extracted from the
debian/changelog
file - see Debian changelog: debian/changelog.
5.6.18. Changes
¶
This multiline field contains the human-readable changes data, describing the differences between the last version and the current one.
The first line of the field value (the part on the same line as
Changes:
) is always empty. The content of the field is expressed as
continuation lines, with each line indented by at least one space. Blank
lines must be represented by a line consisting only of a space and a
full stop (.
).
The value of this field is usually extracted from the
debian/changelog
file - see Debian changelog: debian/changelog.
Each version’s change information should be preceded by a “title” line giving at least the version, distribution(s) and urgency, in a human-readable way.
If data from several versions is being returned the entry for the most recent version should be returned first, and entries should be separated by the representation of a blank line (the “title” line may also be followed by the representation of a blank line).
5.6.19. Binary
¶
This folded field is a list of binary packages. Its syntax and meaning varies depending on the control file in which it appears.
When it appears in the .dsc
file, it lists binary packages which a
source package can produce, separated by commas 13. The source
package does not necessarily produce all of these binary packages for
every architecture. The source control file doesn’t contain details of
which architectures are appropriate for which of the binary packages.
When it appears in a .changes
file, it lists the names of the binary
packages being uploaded, separated by whitespace (not commas).
5.6.20. Installed-Size
¶
This field appears in the control files of binary packages, and in the
Packages
files. It gives an estimate of the total amount of disk
space required to install the named package. Actual installed size may
vary based on block size, file system properties, or actions taken by
package maintainer scripts.
The disk space is given as the integer value of the estimated installed size in bytes, divided by 1024 and rounded up.
5.6.21. Files
¶
This field contains a list of files with information about each one. The exact information and syntax varies with the context.
In all cases, Files is a multiline field. The first line of the field
value (the part on the same line as Files:
) is always empty. The
content of the field is expressed as continuation lines, one line per
file. Each line must be indented by one space and contain a number of
sub-fields, separated by spaces, as described below.
In the .dsc
file, each line contains the MD5 checksum, size and
filename of the tar file and (if applicable) diff file which make up the
remainder of the source package. 14 For example:
Files:
c6f698f19f2a2aa07dbb9bbda90a2754 571925 example_1.2.orig.tar.gz
938512f08422f3509ff36f125f5873ba 6220 example_1.2-1.diff.gz
The exact forms of the filenames are described in Source packages as archives.
In the .changes
file this contains one line per file being uploaded.
Each line contains the MD5 checksum, size, section and priority and the
filename. For example:
Files:
4c31ab7bfc40d3cf49d7811987390357 1428 text extra example_1.2-1.dsc
c6f698f19f2a2aa07dbb9bbda90a2754 571925 text extra example_1.2.orig.tar.gz
938512f08422f3509ff36f125f5873ba 6220 text extra example_1.2-1.diff.gz
7c98fe853b3bbb47a00e5cd129b6cb56 703542 text extra example_1.2-1_i386.deb
The section and priority are the
values of the corresponding fields in the main source control file. If
no section or priority is specified then -
should be used, though
section and priority values must be specified for new packages to be
installed properly.
The special value byhand
for the section in a .changes
file
indicates that the file in question is not an ordinary package file and
must be installed by hand by the distribution maintainers. If the
section is byhand
the priority should be -
.
If a new Debian revision of a package is being shipped and no new
original source archive is being distributed the .dsc
must still
contain the Files
field entry for the original source archive
package_upstream-version.orig.tar.gz
, but the .changes
file
should leave it out. In this case the original source archive on the
distribution site must match exactly, byte-for-byte, the original source
archive which was used to generate the .dsc
file and diff which are
being uploaded.
5.6.22. Closes
¶
A space-separated list of bug report numbers that the upload governed by the .changes file closes.
5.6.23. Homepage
¶
The URL of the web site for this package, preferably (when applicable)
the site from which the original source can be obtained and any
additional upstream documentation or information may be found. The
content of this field is a simple URL without any surrounding characters
such as <>
.
5.6.24. Checksums-Sha1
and Checksums-Sha256
¶
These multiline fields contain a list of files with a checksum and size
for each one. Both Checksums-Sha1
and Checksums-Sha256
have the
same syntax and differ only in the checksum algorithm used: SHA-1 for
Checksums-Sha1
and SHA-256 for Checksums-Sha256
.
Checksums-Sha1
and Checksums-Sha256
are multiline fields. The
first line of the field value (the part on the same line as
Checksums-Sha1:
or Checksums-Sha256:
) is always empty. The
content of the field is expressed as continuation lines, one line per
file. Each line consists of the checksum, a space, the file size, a
space, and the file name. For example (from a .changes
file):
Checksums-Sha1:
1f418afaa01464e63cc1ee8a66a05f0848bd155c 1276 example_1.0-1.dsc
a0ed1456fad61116f868b1855530dbe948e20f06 171602 example_1.0.orig.tar.gz
5e86ecf0671e113b63388dac81dd8d00e00ef298 6137 example_1.0-1.debian.tar.gz
71a0ff7da0faaf608481195f9cf30974b142c183 548402 example_1.0-1_i386.deb
Checksums-Sha256:
ac9d57254f7e835bed299926fd51bf6f534597cc3fcc52db01c4bffedae81272 1276 example_1.0-1.dsc
0d123be7f51e61c4bf15e5c492b484054be7e90f3081608a5517007bfb1fd128 171602 example_1.0.orig.tar.gz
f54ae966a5f580571ae7d9ef5e1df0bd42d63e27cb505b27957351a495bc6288 6137 example_1.0-1.debian.tar.gz
3bec05c03974fdecd11d020fc2e8250de8404867a8a2ce865160c250eb723664 548402 example_1.0-1_i386.deb
In the .dsc
file, these fields list all files that make up the
source package. In the .changes
file, these fields list all files
being uploaded. The list of files in these fields must match the list of
files in the Files
field.
5.6.25. DM-Upload-Allowed
¶
Obsolete, see below.
5.6.26. Version Control System (VCS) fields¶
Debian source packages are increasingly developed using VCSs. The purpose of the following fields is to indicate a publicly accessible repository where the Debian source package is developed.
Vcs-Browser
URL of a web interface for browsing the repository.
Vcs-<type>
The field name identifies the VCS. The field’s value uses the version control system’s conventional syntax for describing repository locations and should be sufficient to locate the repository used for packaging. Ideally, it also locates the branch used for development of new versions of the Debian package.
The following values for <type> are supported, with the corresponding VCS indicated in parentheses if it isn’t obvious:
Arch
Bzr (Bazaar)
Cvs (CVS)
Darcs
Git
Hg (Mercurial)
Mtn (Monotone)
Svn (Subversion)
In the case of Git, the value must have the following syntax:
<url> [ " -b " <branch> ] [ " [" <path> "]" ]
where the portions enclosed in brackets are optional and the portions enclosed in double quotes are literal strings.
<url>
indicates the repository. If the<branch>
portion is present, it names a branch in the indicated repository. If no branch is specified, the packaging should be on the default branch. If the<path>
portion is present, it specifies the relative path to the top of the packaging tree (the parent directory of thedebian
directory). If no path is specified, it defaults to.
(the top level of the indicated repository and branch).For example:
Vcs-Git: https://example.org/repo -b debian [p/package]
indicates a subdirectory named
p/package
in thedebian
branch of the repository athttps://example.org/repo
.In the case of Mercurial, the value must have the following syntax:
<url> [ " -b " <branch> ]
This is interpreted the same way as the Git syntax except a path within the repository is not supported.
A package control file must not have more than one
Vcs-<type>
field. If the package is maintained in multiple version control systems, the maintainer should specify the one that they would prefer other people to use as the basis for proposing changes to the package.
For both fields, any URLs given should use a scheme that provides
confidentiality (https
, for example, rather than http
or git
)
if the VCS repository supports it.
5.6.27. Package-List
¶
Multiline field listing all the packages that can be built from the source package, considering every architecture. The first line of the field value is empty. Each one of the next lines describes one binary package, by listing its name, type, section and priority separated by spaces. Fifth and subsequent space-separated items may be present and parsers must allow them. See the Package-Type field for a list of package types.
5.6.28. Package-Type
¶
Simple field containing a word indicating the type of package: deb
for binary packages and udeb
for micro binary packages. Other types
not defined here may be indicated. In source package control files, the
Package-Type
field should be omitted instead of giving it a value of
deb
, as this value is assumed for stanzas lacking this field.
5.6.29. Dgit
¶
Folded field containing a single git commit hash, presented in full, followed optionally by whitespace and other data to be defined in future extensions.
Declares that the source package corresponds exactly to a referenced
commit in a Git repository available at the canonical location called
dgit-repos, used by dgit
, a bidirectional gateway between the
Debian archive and Git. The commit is reachable from at least one
reference whose name matches refs/dgit/*
. See the manual page of
dgit
for further details.
5.6.30. Testsuite
¶
Simple field containing a comma-separated list of values allowing test execution environments to discover packages which provide tests.
This field is automatically added to Debian source control files
(.dsc
) by dpkg
, with the value autopkgtest
, when a
debian/tests/control
file is present in the source package. This
field may also be used in source package control files
(debian/control
) if needed in other situations.
5.6.31. Rules-Requires-Root
¶
Simple field that defines if the source package requires access to root (or fakeroot) during selected targets in the Main building script: debian/rules.
The field can consist of exactly one of the following three items:
no
: Declares that neither root nor fakeroot is required. Package builders (e.g. dpkg-buildpackage) may choose to invoke any target indebian/rules
with an unprivileged user.
binary-targets
(default): Declares that the package will need the root (or fakeroot) when either of thebinary
,binary-arch
orbinary-indep
targets are called. This is how every tool behaved before this field was defined.A space separated list of keywords described below. These keywords must always contain a forward slash, which sets them apart from the other possible values of
Rules-Requires-Root
. When this list is provided, the builder must provide a “gain root command” (as defined in debian/rules and Rules-Requires-Root) or pretend that the value was set tobinary-targets
, and both the builder and the package’sdebian/rules
script must downgrade accordingly (see below).
If the package builder supports the Rules-Requires-Root
field and
wants to enable the feature, then it must set the environment variable
DEB_RULES_REQUIRES_ROOT
when invoking the package building script
debian/rules
. The value of DEB_RULES_REQUIRES_ROOT
should be
one of:
The value of
Rules-Requires-Root
if the builder can support that value. The builder may trim unnecessary whitespace used to format the field for readability.The value
binary-targets
if it cannot support the value ofRules-Requires-Root
.
A compliant builder may also leave DEB_RULES_REQUIRES_ROOT
unset
or set it to binary-targets
if it has been requested to test
whether the package it builds correctly implements the fall-back for
legacy builders.
5.6.31.1. Remarks¶
All packages and builders must support binary-targets
as this was
the historical behaviour prior to the introduction of this field.
Any tool (particularly older versions of them) may be unaware of this
field and behave like the field was set to binary-targets
. The
package build must gracefully cope with this and produce a
semantically equivalent result.
This field intentionally does not enable a package to request a true root over fakeroot.
5.6.31.2. Definition of the keywords¶
The keywords have the format <namespace>/<case>
, where:
<namespace>
must consist entirely of printable ASCII characters except for any whitespace and the forward slash (/
). It must consist of at least 2 characters.
/
(between<namespace>
and<case>
) is a single ASCII forward slash.
<case>
must consist entirely of printable ASCII characters except for any whitespace. It must consist of at least 2 characters.
These keywords define where the package build script debian/rules
,
or the tools called by that script, will need access to root or
fakeroot.
In addition to the keywords defined in the next section, each tool or package may define keywords within a namespace named after that tool or package. The package or tool is considered to own that namespace.
A tool is permitted to use the “gain root command” to do something under
(fake)root if and only if the tool defines an appropriate keyword in its
namespace, and the package lists that keyword in Rules-Requires-Root
.
All tools must ignore keywords under namespaces they do not know or own. A tool may emit a warning, or abort with an error, if it finds unknown keywords in namespaces it owns, but it is not required to do this for all keywords in the namespace.
5.6.31.3. Provided keywords¶
The following keywords are defined:
dpkg/target-subcommand
: declares that there exists a command that thedebian/rules
file must run under (fake)root
dpkg/target/foo
: declares that the additional, package-specific targetfoo
(that is, not one of the targets specified in Main building script: debian/rules) must be run under (fake)root
This list is intentionally incomplete. You should consult the documentation of the tool or package in question for which keywords it defines and when they are needed.
5.7. User-defined fields¶
Additional user-defined fields may be added to the source package control file. Such fields will be ignored, and not copied to (for example) binary or Debian source control files or upload control files.
If you wish to add additional unsupported fields to these output files you should use the mechanism described here.
Fields in the main source control information file with names starting
X
, followed by one or more of the letters BCS
and a hyphen
-
, will be copied to the output files. Only the part of the field
name after the hyphen will be used in the output file. Where the letter
B
is used the field will appear in binary package control files,
where the letter S
is used in Debian source control files and where
C
is used in upload control (.changes
) files.
For example, if the main source information control file contains the field
XBS-Comment: I stand between the candle and the star.
then the binary and Debian source control files will contain the field
Comment: I stand between the candle and the star.
5.8. Obsolete fields¶
The following fields have been obsoleted and may be found in packages conforming with previous versions of the Policy.
5.8.1. DM-Upload-Allowed
¶
Indicates that Debian Maintainers may upload this package to the Debian
archive. The only valid value is yes
. This field was used to
regulate uploads by Debian Maintainers, See the General Resolution
Endorse the concept of Debian
Maintainers for more
details.
- 1
dpkg
’s internal databases are in a similar format.- 2
The stanzas somtimes used to be referred to as paragraphs, but that caused confusion with text paragraphs in prose, so it is now considered a discouraged term.
- 3
This folding method is similar to RFC 5322, allowing control files that contain only one stanza and no multiline fields to be read by parsers written for RFC 5322.
- 4
It is customary to leave a space after the package name if a version number is specified.
- 5
In the past, people specified the full version number in the Standards-Version field, for example “2.3.0.0”. Since minor patch-level changes don’t introduce new policy, it was thought it would be better to relax policy and only require the first 3 components to be specified, in this example “2.3.0”. All four components may still be used if someone wishes to do so.
- 6
Alphanumerics are
A-Za-z0-9
only.- 7
One common use of
~
is for upstream pre-releases. For example,1.0~beta1~svn1245
sorts earlier than1.0~beta1
, which sorts earlier than1.0
.- 8
The author of this manual has heard of a package whose versions went
1.1
,1.2
,1.3
,1
,2.1
,2.2
,2
and so forth.- 9
Completely empty lines will not be rendered as blank lines. Instead, they will cause the parser to think you’re starting a whole new record in the control file, and will therefore likely abort with an error.
- 10
Example distribution names in the Debian archive used in
.changes
files are:- unstable
This distribution value refers to the developmental part of the Debian distribution tree. Most new packages, new upstream versions of packages and bug fixes go into the unstable directory tree.
- experimental
The packages with this distribution value are deemed by their maintainers to be high risk. Oftentimes they represent early beta or developmental packages from various sources that the maintainers want people to try, but are not ready to be a part of the other parts of the Debian distribution tree.
Others are used for updating stable releases or for security uploads. More information is available in the Debian Developer’s Reference, section “The Debian archive”.
- 11
The source formats currently supported by the Debian archive software are
1.0
,3.0 (native)
, and3.0 (quilt)
.- 12
Other urgency values are supported with configuration changes in the archive software but are not used in Debian. The urgency affects how quickly a package will be considered for inclusion into the
testing
distribution and gives an indication of the importance of any fixes included in the upload.Emergency
andcritical
are treated as synonymous.- 13
A space after each comma is conventional.
- 14
That is, the parts which are not the
.dsc
.