Make () disposition congruent, avoid redundancy and other similar fixes.
8.1 KiB
Scheduling
The scheduling in GStreamer is based on pads actively pushing (producing) data or pulling (consuming) data from other pads.
Pushing
A pad can produce data and push it to the next pad. A pad that behaves this way exposes a loop function that will be repeatedly called until it returns false. This loop function is allowed to block whenever it wants. When the pad is deactivated the loop function should unblock though.
A pad operating in the push mode can only produce data to a pad that exposes a chain function. This chain function will be called with the buffer produced by the pushing pad.
This method of producing data is called the streaming mode since the producer produces a constant stream of data.
Pulling
Pads that operate in pulling mode can only pull data from a pad that
exposes the pull_range()
function. In this case, the sink pad exposes a
loop function that will be called repeatedly until the task is stopped.
After pulling data from the peer pad, the loop function will typically call the push function to push the result to the peer sinkpad.
Deciding the scheduling mode
When a pad is activated, the _activate()
function is called. The pad
can then choose to activate itself in push or pull mode depending on
upstream capabilities.
The GStreamer core will by default activate pads in push mode when there is no activate function for the pad.
The chain function
The chain function will be called when a upstream element performs a
_push()
on the pad. The upstream element can be another chain based
element or a pushing source.
The getrange function
The getrange function is called when a peer pad performs a
_pull_range()
on the pad. This downstream pad can be a pulling element
or another _pull_range()
based element.
Scheduling Query
A sinkpad can ask the upstream srcpad for its scheduling attributes. It
does this with the SCHEDULING
query.
-
(out)
modes
:G_TYPE_ARRAY
(default NULL): an array ofGST_TYPE_PAD_MODE
enums. Contains all the supported scheduling modes. -
(out)
flags
,GST_TYPE_SCHEDULING_FLAGS
(default 0):
typedef enum {
GST_SCHEDULING_FLAG_SEEKABLE = (1 << 0),
GST_SCHEDULING_FLAG_SEQUENTIAL = (1 << 1),
GST_SCHEDULING_FLAG_BANDWIDTH_LIMITED = (1 << 2)
} GstSchedulingFlags;
-
-
_SEEKABLE
: the offset of a pull operation can be specified, if this flag is false, the offset should be -1. -
_SEQUENTIAL
: suggest sequential access to the data. If_SEEKABLE
is specified, seeks are allowed but should be avoided. This is common for network streams. -
_BANDWIDTH_LIMITED
: suggest the element supports buffering data for downstream to cope with bandwidth limitations. If this flag is on, the downstream element might ask for more data than necessary for normal playback. This use-case is interesting for on-disk buffering scenarios for instance. Seek operations might be slow as well so downstream elements should take this into consideration.
-
-
(out)
minsize
:G_TYPE_INT
(default 1): the suggested minimum size of pull requests -
(out)
maxsize
:G_TYPE_INT
(default -1, unlimited): the suggested maximum size of pull requests -
(out)
align
:G_TYPE_INT
(default 0): the suggested alignment for the pull requests.
Plug-in techniques
Multi-sink elements
Elements with multiple sinks can either expose a loop function on each
of the pads to actively pull_range
data or they can expose a chain
function on each pad.
Implementing a chain function is usually easy and allows for all possible scheduling methods.
Pad select
If the chain based sink wants to wait for one of the pads to receive a buffer, just
implement the action to perform in the chain function. Be aware that the action could
be performed in different threads and possibly simultaneously so grab the STREAM_LOCK
.
Collect pads
If the chain based sink pads all require one buffer before the element can operate on the data, collect all the buffers in the chain function and perform the action when all chainpads received the buffer.
In this case you probably also don't want to accept more data on a pad that has a buffer queued. This can easily be done with the following code snippet:
static GstFlowReturn _chain (GstPad *pad, GstBuffer *buffer)
{
LOCK (mylock);
while (pad->store != NULL) {
WAIT (mycond, mylock);
}
pad->store = buffer;
SIGNAL (mycond);
UNLOCK (mylock);
return GST_FLOW_OK;
}
static void _pull (GstPad *pad, GstBuffer **buffer)
{
LOCK (mylock);
while (pad->store == NULL) {
WAIT (mycond, mylock);
}
**buffer = pad->store;
pad->store = NULL;
SIGNAL (mycond);
UNLOCK (mylock);
}
Cases
Inside the braces below the pads is stated what function the pad support:
- l: exposes a loop function, so it can act as a pushing source.
- g: exposes a getrange function
- c: exposes a chain function
Following scheduling decisions are made based on the scheduling methods exposed by the pads:
-
(g) - (l): sinkpad will pull data from src
-
(l) - (c): srcpad actively pushes data to sinkpad
-
() - (c): srcpad will push data to sinkpad.
-
() - () : not schedulable.
-
() - (l): not schedulable.
-
(g) - () : not schedulable.
-
(g) - (c): not schedulable.
-
(l) - () : not schedulable.
-
(l) - (l): not schedulable
-
() - (g): impossible
-
(g) - (g): impossible.
-
(l) - (g): impossible
-
(c) - () : impossible
-
(c) - (g): impossible
-
(c) - (l): impossible
-
(c) - (c): impossible
+---------+ +------------+ +-----------+
| filesrc | | mp3decoder | | audiosink |
| src--sink src--sink |
+---------+ +------------+ +-----------+
(l-g) (c) () (c)
When activating the pads:
-
audiosink has a chain function and the peer pad has no loop function, no scheduling is done.
-
mp3decoder and filesrc expose an (l) - (c) connection, a thread is created to call the srcpad loop function.
+---------+ +------------+ +----------+
| filesrc | | avidemuxer | | fakesink |
| src--sink src--sink |
+---------+ +------------+ +----------+
(l-g) (l) () (c)
-
fakesink has a chain function and the peer pad has no loop function, no scheduling is done.
-
avidemuxer and filesrc expose an (g) - (l) connection, a thread is created to call the sinkpad loop function.
+---------+ +----------+ +------------+ +----------+
| filesrc | | identity | | avidemuxer | | fakesink |
| src--sink src--sink src--sink |
+---------+ +----------+ +------------+ +----------+
(l-g) (c) () (l) () (c)
-
fakesink has a chain function and the peer pad has no loop function, no scheduling is done.
-
avidemuxer and identity expose no schedulable connection so this pipeline is not schedulable.
+---------+ +----------+ +------------+ +----------+
| filesrc | | identity | | avidemuxer | | fakesink |
| src--sink src--sink src--sink |
+---------+ +----------+ +------------+ +----------+
(l-g) (c-l) (g) (l) () (c)
-
fakesink has a chain function and the peer pad has no loop function, no scheduling is done.
-
avidemuxer and identity expose an (g) - (l) connection, a thread is created to call the sinkpad loop function.
-
identity knows the srcpad is getrange based and uses the thread from avidemux to getrange data from filesrc.
+---------+ +----------+ +------------+ +----------+
| filesrc | | identity | | oggdemuxer | | fakesink |
| src--sink src--sink src--sink |
+---------+ +----------+ +------------+ +----------+
(l-g) (c) () (l-c) () (c)
-
fakesink has a chain function and the peer pad has no loop function, no scheduling is done.
-
oggdemuxer and identity expose an () - (l-c) connection, oggdemux has to operate in chain mode.
-
identity chan only work chain based and so filesrc creates a thread to push data to it.