docs/design/draft-tracing.txt - mtk-gstreamer-debian - Git at Google

 Tracing
 =======

 This subsystem will provide a mechanism to get structured tracing info from GStreamer
 applications. This can be used for post-run analysis as well as for live
 introspection.

 We are going to introduce a GstTracer object. There will be only a single instance
 per process or none if tracing is off (not enabled via envvar or compiled out).

 Certain GStreamer core function (such as gst_pad_push or gst_element_add_pad) will
 call into the tracer. The tracer will dispatch into loaded tracing plugins.
 Developers will be able to select a list of plugins by setting an environment
 variable, such as GST_TRACE="meminfo,dbus". When then plugins are loaded, they will
 add them to certain hooks. Another env var GST_TRACE_CHANNEL can be used to send
 the tracing to a file or a socket (Do the same for GST_DEBUG_CHANNEL). The syntax
 could be GST_XXX_CHANNEL=file:///path/to/file or GST_XXX_CHANNEL=tcp://<ip>:<port>.
 If no channel is set, the tracing goes to stderr like the debug logging.

 TODO(ensonic): we might want to have GST_{DEBUG|TRACE)_FORMAT envars as well. These
 could be raw, ansi-color, binary, ...

 Hooks
 -----
 e.g. gst_pad_push() will do add this line:
 GST_TRACER_PUSH_BUFFER (pad, buffer)

 If tracing is disable at compile time the macro will evaluate to nothing. Otherwise
 it will become something along the lines of:
 if (__tracer && __tracer_hook_is_used) {
   gst_tracer_push_buffer (pad, buffer);
 }

 TODO(ensonic): we should eval if we can use something like jump_label in the kernel
 - http://lwn.net/Articles/412072/ + http://lwn.net/Articles/435215/
 - http://lxr.free-electrons.com/source/kernel/jump_label.c
 - http://lxr.free-electrons.com/source/include/linux/jump_label.h
 - http://lxr.free-electrons.com/source/arch/x86/kernel/jump_label.c
 TODO(ensonic): liblttng-ust provides such a mechanism for user-space
 - but this is mostly about logging traces
 - it is linux specific :/

 In addition to api hooks we should also provide timer hooks. Interval timers are
 useful to get e.g. resource usage snapshots. Also absolute timers might make sense.

 Plugins can attach handlers to one or more hooks. When a hook such as
 gst_tracer_push_buffer () is called it will take a timestamp and call all attached
 handlers. Hooks will be called from misc threads. The trace plugins should only
 consume (=read) the provided data. Most trace plugins will log data to a trace
 channel.

 TODO(ensonic): use GSignal for the hooks?

 Plugins
 =======

 meminfo
 -------
 - register to an interval-timer hook.
 - call mallinfo() and log memory usage

 rusage
 ------
 - register to an interval-timer hook.
 - call getrusage() and log resource usage

 dbus
 ----
 - provide a dbus iface to announce applications that are traced
 - tracing UIs can use the dbus iface to find the channels where logging and tracing
   is getting logged to, one would start the tracing UI first and when the
   application is started with tracing activated, the dbus plugin will announce the
   new application, upon which the tracing UI can start reading from the log channels

 topology
 --------
 - register to pipeline topology hooks
 - tracing UIs can show a live pipeline graph

 communication
 -------------
 - register to buffer, event, message and query flow
 - tracing apps can do e.g. statistics

 UI
 ==

 gst-debug-viewer
 ----------------
 gst-debug-viewer could be given the tracelog in addition to the debug log.
 Alternatively it would show a dialog that shows all local apps (if the dbus plugin
 is loaded) and read the log streams from the sockets/files that are configured for
 the app.

 gst-trace-stats
 ---------------
 Such a tool could read a trace and summarize the content like gst-tracelib did for
 stats in 0.10.


 Problems / Open items
 =====================
 - when connecting to a running app, we cant easily get the 'current' state if logging
 is using a socket, as past events are not stored
	Tracing
	=======

	This subsystem will provide a mechanism to get structured tracing info from GStreamer
	applications. This can be used for post-run analysis as well as for live
	introspection.

	We are going to introduce a GstTracer object. There will be only a single instance
	per process or none if tracing is off (not enabled via envvar or compiled out).

	Certain GStreamer core function (such as gst_pad_push or gst_element_add_pad) will
	call into the tracer. The tracer will dispatch into loaded tracing plugins.
	Developers will be able to select a list of plugins by setting an environment
	variable, such as GST_TRACE="meminfo,dbus". When then plugins are loaded, they will
	add them to certain hooks. Another env var GST_TRACE_CHANNEL can be used to send
	the tracing to a file or a socket (Do the same for GST_DEBUG_CHANNEL). The syntax
	could be GST_XXX_CHANNEL=file:///path/to/file or GST_XXX_CHANNEL=tcp://<ip>:<port>.
	If no channel is set, the tracing goes to stderr like the debug logging.

	TODO(ensonic): we might want to have GST_{DEBUG\|TRACE)_FORMAT envars as well. These
	could be raw, ansi-color, binary, ...

	Hooks
	-----
	e.g. gst_pad_push() will do add this line:
	GST_TRACER_PUSH_BUFFER (pad, buffer)

	If tracing is disable at compile time the macro will evaluate to nothing. Otherwise
	it will become something along the lines of:
	if (__tracer && __tracer_hook_is_used) {
	gst_tracer_push_buffer (pad, buffer);
	}

	TODO(ensonic): we should eval if we can use something like jump_label in the kernel
	- http://lwn.net/Articles/412072/ + http://lwn.net/Articles/435215/
	- http://lxr.free-electrons.com/source/kernel/jump_label.c
	- http://lxr.free-electrons.com/source/include/linux/jump_label.h
	- http://lxr.free-electrons.com/source/arch/x86/kernel/jump_label.c
	TODO(ensonic): liblttng-ust provides such a mechanism for user-space
	- but this is mostly about logging traces
	- it is linux specific :/

	In addition to api hooks we should also provide timer hooks. Interval timers are
	useful to get e.g. resource usage snapshots. Also absolute timers might make sense.

	Plugins can attach handlers to one or more hooks. When a hook such as
	gst_tracer_push_buffer () is called it will take a timestamp and call all attached
	handlers. Hooks will be called from misc threads. The trace plugins should only
	consume (=read) the provided data. Most trace plugins will log data to a trace
	channel.

	TODO(ensonic): use GSignal for the hooks?

	Plugins
	=======

	meminfo
	-------
	- register to an interval-timer hook.
	- call mallinfo() and log memory usage

	rusage
	------
	- register to an interval-timer hook.
	- call getrusage() and log resource usage

	dbus
	----
	- provide a dbus iface to announce applications that are traced
	- tracing UIs can use the dbus iface to find the channels where logging and tracing
	is getting logged to, one would start the tracing UI first and when the
	application is started with tracing activated, the dbus plugin will announce the
	new application, upon which the tracing UI can start reading from the log channels

	topology
	--------
	- register to pipeline topology hooks
	- tracing UIs can show a live pipeline graph

	communication
	-------------
	- register to buffer, event, message and query flow
	- tracing apps can do e.g. statistics

	UI
	==

	gst-debug-viewer
	----------------
	gst-debug-viewer could be given the tracelog in addition to the debug log.
	Alternatively it would show a dialog that shows all local apps (if the dbus plugin
	is loaded) and read the log streams from the sockets/files that are configured for
	the app.

	gst-trace-stats
	---------------
	Such a tool could read a trace and summarize the content like gst-tracelib did for
	stats in 0.10.


	Problems / Open items
	=====================
	- when connecting to a running app, we cant easily get the 'current' state if logging
	is using a socket, as past events are not stored