doc/sphinx: Add documentation for the logging/debugging framework

This details the logging/debugging framework with the latest changes,
making use of the groups added by "weston-log: Start adding
documentation" and "libweston/log: Add 'wlog' group".

Signed-off-by: Marius Vlad <marius.vlad@collabora.com>
dev
Marius Vlad 6 years ago
parent 35ff4a8de5
commit 8110e8de61
  1. 1
      doc/sphinx/toc/libweston.rst
  2. 182
      doc/sphinx/toc/libweston/log.rst
  3. 2
      doc/sphinx/toc/libweston/meson.build

@ -8,6 +8,7 @@ Libweston
libweston/compositor.rst
libweston/head.rst
libweston/output.rst
libweston/log.rst
`Libweston` is an effort to separate the re-usable parts of Weston into a
library. `Libweston` provides most of the boring and tedious bits of correctly

@ -0,0 +1,182 @@
Logging/Debugging
=================
Weston's printf
---------------
Logging in weston takes place through :func:`weston_log()` function, which
calls a log handler (:var:`log_handler`) that has to be installed before
actually calling :func:`weston_log()`. In weston, the log handler makes use of
the logging framework which is (mostly) comprised of :ref:`log scopes` (produces
of data) and :ref:`subscribers`.
Logging context
---------------
Management of the logging framework in weston happens under the
:type:`weston_log_context` object and is entirely separated from the main
compositor instance (:type:`weston_compositor`). The compositor
instance can be brought up much more later, but in the same time logging can
take place much earlier without the need of a compositor instance.
Instantiation of the :type:`weston_log_context` object takes place using
:func:`weston_log_ctx_compositor_create()` and clean-up/destroy with
:func:`weston_log_ctx_compositor_destroy()`.
Log scopes
----------
A scope represents a source for a data stream (i.e., a producer). You'll require
one as a way to generate data. Creating a log scope is done using
:func:`weston_compositor_add_log_scope()`. You can customize the scope
behaviour and you'll require at least a name and a description for the
scope.
.. note::
A scope **name** identifies that scope. Scope retrieval from the
:type:`weston_log_context` is done using the scope name. The name is
important for the subscription part, detailed bit later.
Log scopes are managed **explicitly**, and destroying the scope is done using
:func:`weston_compositor_log_scope_destroy`.
Available scopes in weston
~~~~~~~~~~~~~~~~~~~~~~~~~~
Weston has a few scopes worth mentioning:
- **log** - a debug scope for generic logging, upon which :func:`weston_log`
re-routes its data.
- **proto** - debug scope that displays the protocol communication. It is
similar to WAYLAND_DEBUG=server environmental variable but has the ability to
distinguish multiple clients.
- **scene-graph** - an one-shot debug scope which describes the current scene
graph comprising of layers (containers of views), views (which represent a
window), their surfaces, sub-surfaces, buffer type and format, both in
:samp:`DRM_FOURCC` type and human-friendly form.
- **drm-backend** - Weston uses DRM (Direct Rendering Manager) as one of its
backends and this debug scope display information related to that: details
the transitions of a view as it takes before being assigned to a hardware
plane or to a renderer, current assignments of views, the compositing mode
Weston is using for rendering the scene-graph, describes the current hardware
plane properties like CRTC_ID, FB_ID, FORMAT when doing a commit or a
page-flip. It incorporates the scene-graph scope as well.
- **xwm-wm-x11** - a scope for the X11 window manager in Weston for supporting
Xwayland, printing some X11 protocol actions.
- **content-protection-debug** - scope for debugging HDCP issues.
.. note::
Besides 'log' scope, which is a generic scope, intended for usage through
:func:`weston_log`, all the others scopes listed above could suffer various
modifications and might not represent a current list on which one should
rely upon.
Subscribers
-----------
Besides creating a creating a scope, a subscriber (:type:`weston_log_subscriber`)
object needs to be created. The subscriber object is an opaque
object (private) and allows customization of the back-end side of libweston.
The subscriber object can define its own methods. Users wanting to define
a new data stream should extend this :type:`weston_log_subscriber`.
For example libweston make uses of several type of subscribers, specific to the
data streams they will be generating:
- a **'logger'** type created by :func:`weston_log_subscriber_create_log()`
- a **'flight-recoder'** type created by :func:`weston_log_subscriber_destroy_flight_rec()`
- for the **'weston-debug'** protocol, which is private/hidden created whenever a
client connects
Like log scopes, the subscribers are also manged **explicitly** and both of the
subscriber types above have their destroy counter-parts. `weston-debug`
protocol is a bit special in this regard as the destroying part is handled
implicitly using wayland protocol specifics.
Once the subscriber has been created there needs to be a subscription process
in which we establish a relationship between the subscriber and the scope.
To create a subscription we use :func:`weston_log_subscribe` which uses the
subscriber created previously and the scope name. If the scope was not created
at the time, the subscription will be (at least for a time) a *pending
subscription*. Once the scope is created the *pending subscription* is
destroyed, not before creating a new subscription to accommodate the
initial/original one.
.. note::
The subscription process is (an) internal API and is managed implictly.
When a scope is being destroyed the subscriptions for this scope will be
destroyed as well.
Logger
~~~~~~
weston uses a logger type of a subscriber for logging everyhing in the code
(through the help of :func:`weston_log()`). The subscriber method
(:func:`weston_log_subscriber_create_log()`) takes an :samp:`FILE *` as an
argument in case the std :samp:`stdout` file-descriptor is not where the data
should be sent to.
Additionally, specifying which scopes to subscribe to can be done using
:samp:`--logger-scopes` command line option. As log scopes are already created
in the code, this merely subscribes to them. Default, the 'log' scope is being
subscribr to the logger subscriber.
Flight recorder
~~~~~~~~~~~~~~~
The flight recorder acts like a black box found in airplanes: it accumulates
data until the user wants to display its contents. The backed up storage is a
simple ring-buffer of a compiled-time fixed size value, and the memory is
forcibly-mapped such that we make sure the kernel allocated storage for it.
The user can use the debug keybinding :samp:`KEY_D` (shift+mod+space-d) to
force the contents to be printed on :samp:`stdout` file-descriptor.
The user has first to specify which log scope to subscribe to.
Specifying which scopes to subscribe for the flight-recorder can be done using
:samp:`--flight-rec-scopes`. By default, the 'log' scope and 'drm-backend' are
the scopes subscribed to.
weston-debug protocol
~~~~~~~~~~~~~~~~~~~~~
Weston-debug protocol is only present in the weston compositor (i.e., a weston
specific compositor). It make uses of the the logging framework presented
above, with the exception that the subscription happens automatically rather
than manually with :func:`weston_log_subscribe()` in case of the other two
types of subscribers. Also the subscriber is created once the client has
connected and requested data from a log scope. This means that each time a
client connects a new subscriber will be created. For each stream subscribed a
subscription will be created. Enabling the debug-protocol happens using the
:samp:`--debug` command line.
.. doxygengroup:: debug-protocol
:content-only:
Weston Log API
--------------
.. doxygengroup:: wlog
:content-only:
Logging API
-----------
.. doxygengroup:: log
:content-only:
Internal logging API
--------------------
.. note::
The following is mean to be internal API and aren't exposed in libweston!
.. doxygengroup:: internal-log
:content-only:

@ -1,5 +1,5 @@
# you need to add here any files you add to the toc directory as well
files = [ 'compositor.rst', 'head.rst', 'output.rst' ]
files = [ 'compositor.rst', 'head.rst', 'output.rst', 'log.rst' ]
foreach file : files
configure_file(input: file, output: file, copy: true)

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