This library provides GObjects and helper methods to make it easy to read and write AppStream metadata. It also provides a simple DOM implementation that makes it easy to edit nodes and convert to and from the standardized XML representation. It also supports reading of Debian-style DEP-11 metadata.
What this library allows you to do:
- Read and write compressed AppStream XML files
- Read compressed Debian YAML files
- Add and search for applications in an application store
- Get screenshot image data and release announcements
- Easily retrieve the best application data for the current locale
- Efficiently interface with more heavy-weight parsers like expat
For more information about what AppStream is, please see the wiki here: http://www.freedesktop.org/wiki/Distributions/AppStream/
To install the libappstream-glib library you either need to install the
libappstream-glib
package from your distributor, or you can build a local
copy. To do the latter just do:
dnf install docbook-utils gettext-devel glib-devel \
gobject-introspection-devel gperf gtk-doc gtk3-devel \
libarchive-devel libsoup-devel \
libstemmer-devel libuuid-devel libyaml-devel \
meson rpm-devel sqlite-devel
mkdir build && cd build
meson .. --prefix=/opt -Dbuilder=false
ninja
If you want a new feature, or have found a bug or a way to crash this library, please report as much information as you can to the issue tracker: https://github.com/hughsie/appstream-glib/issues -- patches very welcome.
New functionality or crash fixes should include a test in libappstream-builder/ as-self-test.c
to ensure we don't regress in the future. New functionality should also be
thread safe and also not leak any memory for success or failure cases.
Translations of the natural language strings are managed through a third party translation interface, transifex.com. Newly added strings will be periodically uploaded there for translation, and any new translations will be merged back to the project source code.
Please use https://www.transifex.com/projects/p/appstream-glib/ to contribute translations, rather than sending pull requests.
appstream-builder is a tool that allows us to create AppStream metadata from a directory of packages. It is typically used when generating distribution metadata, usually at the same time as modifyrepo or createrepo.
What this tool does:
- Searches a directory of packages and reads just the RPM header of each.
- If a package contains an interesting file, just the relevant files are decompressed from the package archive.
- A set of plugins are run on the extracted files, and if these match certain
criteria
AsbApplication
objects are created. - Any screenshots referenced are downloaded to a local cache.
This is optional and can be disabled with
--nonet
. - When all the packages are processed, some of the
AsbApplication
objects are merged into single applications. This is how fonts are collected. - The
AsbApplication
objects are serialized to XML and written to a compressed archive. - Any application icons or screenshots referenced are written to a .tar archive.
To run appstream-builder you either need to install the package containing the binary and data files, or you can build a local copy. To do the latter just do:
dnf install docbook-utils gettext-devel glib-devel \
gobject-introspection-devel gperf gtk-doc gtk3-devel \
libarchive-devel libsoup-devel \
libstemmer-devel libuuid-devel libyaml-devel \
meson rpm-devel sqlite-devel rpm-devel
mkdir build && cd build
meson .. --prefix=/opt -Dbuilder=true
ninja
To actually run the extractor you can do:
./client/appstream-builder --verbose \
--max-threads=8 \
--log-dir=/tmp/logs \
--packages-dir=/mnt/archive/Megarpms/21/Packages \
--temp-dir=/mnt/ssd/AppStream/tmp \
--output-dir=./repodata \
--screenshot-url=http://megarpms.org/screenshots/ \
--basename="megarpms-21"
Note: it is possible to use "globs" like /mnt/archive/Megarpms/21/Packages*
to
match multiple directories or packages.
This will output a lot of progress text. Now, go and make a cup of tea and wait patiently if you have a lot of packages to process. After this is complete you should finally see:
Writing ./repodata/megarpms-21.xml.gz
Writing ./repodata/megarpms-21-failed.xml.gz
Writing ./repodata/megarpms-21-ignore.xml.gz
Writing ./repodata/megarpms-21-icons.tar
Done!
You now have two choices what to do with these files. You can either upload
them with the rest of the metadata you ship (e.g. in the same directory as
repomd.xml
and primary.sqlite.bz2
) which will work with Fedora 22 and later:
modifyrepo_c \
--no-compress \
/tmp/asb-md/appstream.xml.gz \
/path/to/repodata/
modifyrepo_c \
--no-compress \
/tmp/asb-md/appstream-icons.tar.gz \
/path/to/repodata/
You can then do something like this in the megarpms-release.spec file:
Source1: http://www.megarpms.org/temp/megarpms-20.xml.gz
Source2: http://www.megarpms.org/temp/megarpms-20-icons.tar.gz
%install
DESTDIR=%{buildroot} appstream-util install %{SOURCE1} %{SOURCE2}
This ensures that gnome-software can access both data files when starting up.
Applications are defined in the context of AppStream as such:
- Installs a desktop file and would be visible in a desktop
- Has an metadata extractor (e.g. libappstream-builder/plugins/asb-plugin-gstre amer.c) and includes an AppData file
These guidelines explain how we filter applications from a package set.
First, some key words:
- SHOULD: The application should do this if possible
- MUST: The application or addon must do this to be included
- CANNOT: the application or addon must not do this
The current rules of inclusion are thus:
- Icons MUST be installed in
/usr/share/pixmaps/*
,/usr/share/icons/*
,/usr/share/icons/hicolor/*/apps/*
, or/usr/share/${app_name}/icons/*
- Desktop files MUST be installed in
/usr/share/applications/
or/usr/share/applications/kde4/
- Desktop files MUST have
Name
,Comment
andIcon
entries - Valid applications with
NoDisplay=true
MUST have an AppData file. - Applications with
Categories=Settings
,Categories=ConsoleOnly
orCategories=DesktopSettings
MUST have an AppData file. - Applications MUST have had an upstream release in the last 5 years or have an AppData file.
- Application icon MUST be available in 48x48 or larger
- Applications must have at least one main or additional category listed
in the desktop file or supply an AppData file.
See http://standards.freedesktop.org/menu-spec/latest/apa.html and
http://standards.freedesktop.org/menu-spec/latest/apas02.html for the
full
Categories
list. - Codecs MUST have an AppData file
- Input methods MUST have an AppData file
- If included, AppData files MUST be valid XML
- AppData files MUST be installed into
/usr/share/appdata
- Application icons CANNOT use XPM or ICO format
- Applications CANNOT use obsolete toolkits such as GTK+-1.2 or QT3
- Applications that ship a desktop file SHOULD include an AppData file.
- Screenshots SHOULD be in 16:9 aspect ratio
- Application icons SHOULD have an alpha channel
- Applications SHOULD ship a 256x256 PNG format icon or scalable SVG
- Applications SHOULD ship a matching High Contrast icon
- Applications SHOULD not depend on other applications
- AppData files SHOULD include translations
- Desktop files SHOULD include translations
- Fonts MUST have a valid MetaInfo file installed to /usr/share/appdata
- Fonts packaged in multiple packages SHOULD have multiple MetaInfo files
- Fonts families SHOULD only have one description section
- Fonts of different styles or weights of the same family SHOULD use
<exte nds>
- MetaInfo files SHOULD include translations where possible
LGPLv2+