Elektra
0.8.18
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Every key in Elektra has a unique name. Sometimes, multiple keys denote the same configuration item from different sources, e.g.:
To allow such keys to exist in parallel, Elektra uses namespaces.
A namespace has following properties:
Following parts of Elektra are affected by namespaces:
In the rest of this document all currently available namespaces in the default order are described.
Unlike the other namespaces, the specification namespace does not contain values of the keys, but instead meta data as described in METADATA.ini.
When a key is looked up, keys from the spec-namespace are the first to be searched. When a spec-key is found, the rest of the lookup will be done as specified, probably in a different order than the namespaces enlisted here.
Usually, the spec-keys do not directly contribute to the value, with one notable exception: the default value (meta data default
, see in cascading below) might be used if every other way as specified in the spec-key failed.
Spec-keys typically include a explanation and description for the key itself (but not comments which are specific for individual keys).
The spec configuration files are below CMAKE_INSTALL_PREFIX/KDB_DB_SPEC.
spec is not part of cascading mounts, because the specifications often are written in different syntax than the configuration files.
Derived from the process (e.g. by parsing /proc/self or by arguments passed from the main method):
Keys in the namespace proc can not be stored by their nature. They might be different for every invocation of an application.
Keys from the namespace dir
are derived from a directory special to the user starting/using the application, e.g.:
Note that Elektra only supports a single special directory per KDB instance. Start a new KDB instance if you need different special directories for different parts of your application. How to change the directory may be different dependent on the resolver, e.g. by using chdir or by setting the environment variable PWD
On multi-user operating systems obviously every user wants her/his own configuration. The user configuration is located in the users home directory typically below the folder KDB_DB_USER. Other paths below the home directory are possible too (absolute path for resolver).
Note that Elektra only supports a user directory per KDB instance. Start a new KDB instance if you need different user configuration for different parts of your application. How to change the user may be different dependent on the resolver, e.g. by seteuid() or by environment variables like HOME, USER
The system configuration is the same for every chroot.
The configuration is typically located below KDB_DB_SYSTEM. Other absolute paths, e.g. below /opt or /usr/local/etc are possible too.
Keys that are not in a namespace (i.e. start with an /
) are called cascading keys. Cascading keys do not stem from a configuration source, but are used by applications to lookup a key in different namespaces. So, multiple keys can contribute to each cascading key name.
Cascading is the same as a name resolution and provides a namespace unification as described in Versatility and Unix semantics in namespace unification.
Keys without a namespace can not be stored by their nature. So they are transient: after a restart they are forgotten.
Keys of that namespace are only used by ksLookup when no other suitable key was found. So they have the lowest possible priority, even fallback keys are preferred.