2002-08-02 11:23:05 +00:00
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EARLY DOCUMENT, NOT EXACTLY AS IMPLEMENTED
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2002-01-29 23:48:08 +00:00
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EVENTS RFC
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==========
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Scope
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-----
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This document tries to describe a possible implementation of an event
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system for GStreamer that is able to handle all known problems and works
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better than the current (0.3.1) system which evolved over time.
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Definition
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----------
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The event system is designed to be a mechanism for communication between
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elements. They are used to get information to the right point when this
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point cannot be known in advance.
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Events can be generated by either an element or the application and are
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processed by elements.
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Event Handling
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--------------
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Events may be inserted into a pipeline in the PAUSED or PLAYING state. Some
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events may travel during the PAUSED state, others may only travel when PLAYING.
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The insertion of events during the NULL or READY state should be supported if
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at all possible. Events may not be processed in those states though.
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After an event is inserted into the pipeline, no assumption may be made on how
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the event will be processed. It is eg wrong to assume that an event that is
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inserted at the beginning of the pipeline may come out at the end.
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There are 3 different directions an event can be processed.
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* downstream events
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Downstream events are inserted on source pads and travel along the pipeline.
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They are handled like buffers and processed in order. If event x is inserted
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into a pipeline after buffer y, they are guaranteed to travel in that order.
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Downstream events therefore only travel when the pipeline is PLAYING.
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Downstream events must be handled by the routines that handle buffers, too.
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An example downstream event is the event signalling that the stream has ended.
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Please keep in mind that downstream events take the same way as buffers. So a
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ghost pad will never receive these events.
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* upstream events
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Upstream events are inserted on sink pads and travel backwards through the
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pipeline. They travel as fast as possible. Source pads must have a handler
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function in place to process events. A default handler is implemented.
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An example upstream event is an event that seeks inside the stream.
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Please keep in mind that upstream events take the same way as buffers in reverse
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direction. This means that ghost pads will never receive them.
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* vertical events
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Vertical events travel from elements to their parents. They are targetted at
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the application. Vertical events should be used for information that an
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application cannot receive in an easy way by using callbacks or properties.
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Vertical events are send to the application by the pipeline that collects those
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events and supplies a callback for the application. Vertical events are also only
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happening when the pipeline is in PAUSED or PLAZING state.
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An example vertical event is the error event informing the application about
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unexpected behaviour.
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The GstEvent object
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-------------------
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struct _GstEvent {
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GstData data;
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GstEventType type;
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guint64 timestamp;
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GstObject *src;
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union {
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...
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} event_data;
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};
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data: The parent object.
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type: The type of the event. GStreamer aims to keep the number of different
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plugin types as small as possible.
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timestamp: The time when the event was created. This property is used to identify
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duplicated events. If the application inserts an event, the timestamp
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is set by the element receiving the event from the application.
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src: The element that created the event. If an application inserts an event,
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the element that received the event from the application sets itself as
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the source.
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event_data: data specific to the event type.
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The different event types
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-------------------------
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The following names in brackets correspong to the event's type property.
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GST_EVENT_DISCONTINUOUS
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direction(s): downstream
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event_data: struct {
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GstDiscontType type;
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} discontinuous;
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This event is used to indicate that the current stream does not continue. Possible
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indications are a new stream (type = GST_DISCONT_NEW), the happening of a seek
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(type = GST_DISCONT_SEEK) or the end of the stream when no more data is available.
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(type = GST_DISCONT_EOS)
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GST_EVENT_SEEK
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direction(s): upstream
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event_data: struct {
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GstSeekType type;
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gint64 offset;
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gboolean flush;
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} seek;
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This event is used if a seek is needed. Uses include applications or the avi demuxer
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element requesting the end of the stream first. The seek can happen absolute (SET),
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relative to the current position (CUR) or relative to the end (END). It is possible
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to seek by frames (FRAME), time in microseconds (TIME) or bytes (BYTE). This is
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indicated by the type field, which takes the values
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GST_SEEK_FRAME/TIME/BYTEOFFSET_SET/CUR/END. The offset field indicates how many units
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should be seeked. Negative values indicate seeking backwards from the indicated position.
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The flush field indicates if buffered data shuold be flushed or discarded.
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GST_EVENT_FLUSH
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direction(s): upstream
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event_data: none
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This event indicates that all buffered data should be flushed out immediately.
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GST_EVENT_INFO
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direction(s): downstream, vertical
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event_data: struct {
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GstProps *props;
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} info;
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The Info event is used to transport meta information like bitrate, author, title,
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interpret or stream length. Most info events will be emitted vertical and downstream
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at the same time. Vertical emission ensures that an application knows about those
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properties and downstream emission ensures that elements can compute own information
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from these infos. (eg converting stream length in bytes to song length in
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microseconds).
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Props consist of key / value pairs, where the key is a string identifier and the value
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is a GstPropEntry. Many key strings are predefined to allow consistency between elements.
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Elements should try to suppy any information they can as soon as possible.
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GST_EVENT_HAS_INFO
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direction(s): upstream
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void (*GstHasInfoCallback) (gchar *name, GstPropsEntry *info, gpointer data);
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event_data: struct {
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GList *info;
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GstHasInfoCallback callback;
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gpointer data;
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} has_info;
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The has_info event might be inserted by an application to find out if a pipeline can supply
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the specified infos. the info list contains all information that the application is
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interested in. If an element can supply information it calls the supplied callback with the
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name of the information it can supply, the information if it is already available or NULL and
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the data. If this event is destroyed, it will call the callback with name = NULL to indicate
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that no more data will be received.
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This event will for example be used by playlists when they generate information.
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GST_EVENT_ERROR
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direction(s): vertical
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event_data: struct {
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gchar *message
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} error;
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An error event is emitted, whenever a recoverable error occurs that the application
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should know about. The usage should be similar to GLibs GError. An example would be
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"connection closed" for a host to host plugin.
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Reference Counting
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------------------
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References to events are handled similar to buffers. An element receives an event with
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a single reference. If it forwards the event, this reference is lost.
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Events own a reference to the element that created them. They take care of all of all
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data inside them too (strings, props). So elements and applications that want to keep
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this informations need to copy or add a reference them.
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Changing Events
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---------------
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It is not allowed to change any data inside an event. Changing events can only be
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accomplished by removing the reference to them and not forwarding the event and then
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creating a new one.
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Default Behaviour
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-----------------
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* downstream events
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These are not handled by default, because they must be handled by the chain handler
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of the sink pad. There is however a function called gst_pad_event_default(GstPad *,
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GstData *) that will take care of events if your code doesn't want to handle them.
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But your code must be aware that not everything that your chain function receives
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is a buffer. It could be an event.
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* upstream events
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Upstream events are handled by a default handler function that is inserted on sink
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pads when they are created. This function simply forwards the event to all connected
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sink pads of the element. You are free to change this handler.
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* vertical events
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Vertical events can not be received by elements. Bins have a default handler function
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that simply forwards the event to their parent. Pipelines offer callbacks for events.
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You may change this handler for your custom bins.
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Use Cases
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---------
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Following are some simple use cases describing how events are generated. The pipeline
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decriptions use gst-launch syntax. "..." indicates that something follows there but is
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not important for the example.
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* filesrc ! fakesink
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- When starting the pipeline, filesrc will emit a DISCONTINUOUS event of type NEW
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indicating a new stream.
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- Following that event will be an INFO event containing the length of the file/stream
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in bytes.
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- After the file was played, the filesrc emits a "DISCONTINUOUS" of type EOS.
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* filesrc ! mad ! ...
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- When starting, filesrc emits a DISCONTINUOUS event followed by an INFO event (see above).
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The mad plugin remembers the length of the file and removes the INFO element as it
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is no longer of use. The DISCONTINUOUS event has passed mad after making sure, that all
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buffers are cleared.
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- Mad will emit a SEEK event to BYTEOFFSET_END; offset = -sizeof(ID3_info) to read out the ID3
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information.
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- Filesrc emits a DISCONTINUOUS event of type SEEK to indicate that it seeked to the end.
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This event will not be passed on by mad.
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- after receiving the ID 3 information, mad will issue an INFO event containing all data
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it extracted. This event will probably only be passed vertical as ID3 information is of
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no use to other elements.
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- mad then ISSUES a SEEK event of type BYTEOFFSET_SET; offset = 0 to make the filesrc start
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playing the file.
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- The filesrc will reset its offset and issue a DISCONTINUOUS event of type SEEK. This event
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will not be forwarded by mad.
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- When playing starts, mad is able to compute bitrate and other information including playing
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time with the help of the previous length information supplied by the filesrc. It will then
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issue another INFO event with that informations. This one will be send downstream and vertical.
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* ... ! avimux ! disksink
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This example is showing a more exotic way of using events. The reader should be aware that AVI
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files have a limited filesize. Only 4 GB are allowed. We now show what happens when the avimux
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encoder hits that limit.
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- When the internal counter of avimux shows that it is approaching the filesize limit, the
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avimux element pushes a buffer containig the footer to the disksink.
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- After that it issues a DISCONTINUOUS event of the type DISCONT_NEW indicating a new stream.
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The disksink will close the file and reopen a new one.
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- The avimux plugin resets its internal size counter and restarts sending data to the new file.
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* filesrc ! gunzip ! mikmod ! osssink
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(please note that this example is purely theoretical. It should just show ideas)
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During playback, an application is interested in "interpret", "title", "length_time",
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"length_size" and "URI" of the current stream.
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- The appplication creates a HAS_INFO event and inserts it at the end of the pipeline into the
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osssink.
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- The osssink cannot supply any info so it forwards the event to the mikmod element.
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- The mikmod element can supply "title" and "length_time". It calls the supplied callback twice
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and gives these two options. It forwards the event to the gunzip element.
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- The gunzip element has already decoded the whole data so it knows the size of the stream. It
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calls the callback for "length_size" and forwards the event.
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- The filesrc supplies the "URI" and the "length_size" for a second time. It is now up to the
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application's callback function to handle this second occurence of "length_size" information.
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The filesrc does not forward the event and dereferences it.
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- During disposal of the event, the callback function is called again with name=NULL. The
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application now knows that no "title" can be supplied.
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Open Questions
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--------------
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Open questions are issues that should probably be solved by events but can not be solved
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currently.
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* A disksink needs to be able to inform elements of a restricted file size. Simply closing
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the file and opening a new one might not work because elements might need to supply a
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footer. (eg avimux)
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Issues / changes (to be deleted in final version)
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----------------
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? Are the event directions distinct? Or is it possible that some type of event
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can travel eg upstream _and_ vertical?
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? How are upstream/vertical events supposed to be handled if they occur when
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the element is READY or NULL? Buffer the event? How many events should be
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buffered? Maybe a READY element is attached to a PLAYING/PAUSED one and
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constantly receiving events, no?
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! The EOS event was merged with the DISCONTINUOUS event.
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? Does the DISCONTINUOUS event need a "flush" option?
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? Should chain funcs be changed to expect GstData instead of GstBuffer?
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It's a little bit misleading if events can arrive there.
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! added information about timestamp.
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? Should timestamps of "follow up" events (eg conversion of seek) keep the
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timestamp?
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? src = NULL, when app inserts event?
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? How do elements handle events they cannot use? (eg filesrc getting timebased
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seek request)
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? Somebody fix the GST_EVENT_FLUSH part.
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? GValue or GstProps for INFO events? First requires to open up the props headers
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and writing some API to ease the retrieval of the elements, the second requires
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a rewrite of GST_EVENT_INFO.
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? GQuark/GValue possible in INFO events?
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! Merged INFO and PROPS event. They are nearly the same. Added documentation.
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? Need to work out the ERROR event.
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! changed prototype for gst_pad_event_default to accept buffers so the function checks
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if it is an event and not every chain handler has to.
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! added HAS_INFO event. An alternative to the callback function could be another vertical
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event.
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? Should HAS_INFO callback supply the element calling the function?
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? Use case one: start with discont event?
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? Do we need a state change event?
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? Should we make elements supply information as soon as possible or only upon HAS_INFO
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request?
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? should the second example be done with region requesting instead of events?
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? "location" or "URI"?
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? What about suggesting buffer sizes?
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? What about QoS?
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