Changes:
- Configuration files are no longer located by libpipewire,
which allows us to control the paths that are being looked up.
This is a requirement for installations where pipewire and
wireplumber are built using different prefixes, in which case
the configuration files of wireplumber end up being installed in
a place that libpipewire doesn't look into...
- The location of conf files is now again $prefix/share/wireplumber,
/etc/wireplumber and $XDG_CONFIG_HOME/wireplumber, instead of using
the pipewire directories. Also, since the previous commits, we now
also support $XDG_CONFIG_DIRS/wireplumber (typically /etc/xdg/wireplumber)
and $XDG_DATA_DIRS/wireplumber for system-wide configuration.
- Since libpipewire doesn't expose the parser, we now also do the
parsing of sections ourselves. This has the advantage that we can
optimize it a bit for our use case.
- The WpConf API has changed to not be a singleton and it is a
property of WpCore instead. The configuration is now expected
to be opened before the core is created, which allows the caller
to identify configuration errors in advance. By not being a singleton,
we can also reuse the WpConf API to open other SPA-JSON files.
- WpConf also now has a lazy loading mechanism. The configuration
files are mmap'ed and the various sections are located in advance,
but not parsed until they are actually requested. Also, the sections
are not copied in memory, unlike what happens in libpipewire. They
are only copied when merging is needed.
- WpCore now disables loading of a configuration file in pw_context,
if a WpConf is provided. This is to have complete control here.
The 'context.spa-libs' and 'context.modules' sections are still
loaded, but we load them in WpConf and pass them down to pw_context
for parsing. If a WpConf is not provided, pw_context is left to load
the default configuration file (client.conf normally).
This adds support for the system-wide locations for configuration and
data files, as defined by the XDG Base Directory Specification.
In addition, it adds two flag groups, CONFIGURATION and DATA, to the
base-dirs system, so that we don't have to hard-code the combinations
of flags everywhere.
Instead, make it so that WIREPLUMBER_*_DIR environment variables can
contain a list of directories to look into. This is safer and,
as a bonus, allows for more control over the lookup directories.
Using the G_TEST_SRCDIR variable can cause problems for tests of other
projects that use libwireplumber and may also lead to unexpected
behavior by not being obvious that this causes wireplumber to skip
looking in its standard directories...
This also brings back WIREPLUMBER_CONFIG_DIR, which is going to be
needed again for the upcoming WpConf changes.
This doesn't need to be a singleton, since we have the core registration
API available publicly nowadays. Makes things more clean for the API,
following the pattern of WpPlugin and WpSiFactory and simplifies the
built-in settings component in the internal component loader :)
This allows partially parsing a json object, allowing some parts to be
passed on as strings to another component that does its own parsing
(ex. a pipewire module)
This reverts commit 2ae1b3cbd9.
This is not a good API. It was only allowed temporarily in 0.4.15
to get things done. We should approach this properly in 0.5
In conf_apply_rules, check input argument is a table before assuming it
is and potentially crashing.
Add check also in wplua_table_to_properties to avoid similar bugs.
Each component can optionally "provide" a feature, which is basically
a string that describes the feature (ex. "support.dbus"). If the
component loads successfully, the feature is marked as provided and
can be tested for its presence with wp_core_test_feature()
There is no reason to return the component object... all components
are supposed to be long-lived objects that are referenced by the
registry and there is API to find them. The caller is only interested
in the success or failure of the operation.
Do this in wp_core_load_component() and let the component loaders worry
only about creating the object.
Also run the main loop in tests while loading components, to ensure
that the async operation finishes before continuing execution. GTask
makes sure to make the operation async always, by emitting the callback
from an idle GSource.
Regarding the core parameter, the case used to be that WpComponentLoader
was a WpPlugin, so it had a reference to the core internally, but since
this is no longer a requirement, we need to pass this explicitly
Syslog calls this level "notice" and I prefer it because we use it
to display significant messages that are not warnings, but they
are not really "standard", as GLib wants them to be. There is nothing
"standard" about log messages in general.
Also, make these notice messages be enabled at debug level 2, together
with warnings. The default log.level is 2 and it is a good idea to show
notices by default too.
Finally, show them in the log with "N" and also change criticals to be
shown with "E", meaning "error"... Then promote G_LOG_LEVEL_ERROR
messages to be shown with "F", meaning "fatal", because in fact these
messages are always fatal and always call abort(). Still, keep the term
"critical" in the functions to make sure that whoever uses them is aware
that this level is only for critical conditions and not suitable to
display any kind of error.
This allows lua scripts to work with log topics. A topic must be
opened at the top of the file, in global scope, and subsequently
all log commands should be executed on the returned object instead
of the Log global table
The intention is to make checks for enabled log topics faster.
Every topic has its own structure that is statically defined in the file
where the logs are printed from. The structure is initialized transparently
when it is first used and it contains all the log level flags for the levels
that this topic should print messages. It is then checked on the wp_log()
macro before printing the message.
Topics from SPA/PipeWire are also handled natively, so messages are printed
directly without checking if the topic is enabled, since the PipeWire and SPA
macros do the checking themselves.
Messages coming from GLib are checked inside the handler.
An internal WpLogFields object is used to manage the state of each log
message, populating all the fields appropriately from the place they
are coming from (wp_log, spa_log, glib log), formatting the message and
then printing it. For printing to the journald, we still use the glib
message handler, converting all the needed fields to GLogField on demand.
That message handler does not do any checks for the topic or the level, so
we can just call it to send the message.
This change completely refactors the way components are loaded in wireplumber:
- The module_init() function must return a GObject now. This object is either
a WpPlugin or a WpSiFactory in the current modules.
- When the component loader initializes a module, it automatically registers
the WpPlugin or WpSiFactory with their respective methods. There is no need
to register the WpPlugin or WpSiFactory in the module now.
- The wp_core_load_component() API has been refactored to be asynchronows. This
allows the component loader to automatically activate WpPlugin objects, and
therefore allows the application to directly get the WpPlugin without having
to find it. This simplifies a lot of things.
- The 'ifexists' and 'nofail' component flags now work even if the respective
WpPlugin could not be activated.
- The code that loads components in main.c has also been simplified a lot,
and the option to load dangling components has also been removed.
This patch also moves nested configuration objects that are not considered
settings from the wireplumber.settings section to its own configuration
section (eg the rules array, the spa plugin properties, etc...). This allows
those objects to be merged with other same sections defined in other files.
When in error, attempt to execute a step called "error", if it exists.
This is rarely needed, but it might be useful in some cases to cleanup
some state, rolling back changes, when something fails.
* Remove entirely the hook priority numbers and use before/after dependencies
* Split the WpEvent code out of WpEventDispatcher
* Add methods on WpEvent to interface with it from the WpEventDispatcher.
As a bonus, we can now also implement tooling to inspect which hooks would
in theory run for an event and write tests around that
* Removed some internal debugging facilities and log calls, will redo it later.
* Using spa_list now for the list of hooks, to reduce the number of allocations
happening in the "hook collection" algorithm
* Switched some internal data to use g_new0 instead of g_slice_new0
* Added g_free to free WpEvent structures... surprisingly, we were leaking them
before
