Merge branch 'master' into 0.11

[platform/upstream/gstreamer.git] / gst / gstmessage.h

/* GStreamer
 * Copyright (C) 2004 Wim Taymans <wim@fluendo.com>
 *
 * gstmessage.h: Header for GstMessage subsystem
 *
 * This library is free software; you can redistribute it and/or
 * modify it under the terms of the GNU Library General Public
 * License as published by the Free Software Foundation; either
 * version 2 of the License, or (at your option) any later version.
 *
 * This library is distributed in the hope that it will be useful,
 * but WITHOUT ANY WARRANTY; without even the implied warranty of
 * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the GNU
 * Library General Public License for more details.
 *
 * You should have received a copy of the GNU Library General Public
 * License along with this library; if not, write to the
 * Free Software Foundation, Inc., 59 Temple Place - Suite 330,
 * Boston, MA 02111-1307, USA.
 */

#ifndef __GST_MESSAGE_H__
#define __GST_MESSAGE_H__

G_BEGIN_DECLS

typedef struct _GstMessage GstMessage;

/**
 * GstMessageType:
 * @GST_MESSAGE_UNKNOWN: an undefined message
 * @GST_MESSAGE_EOS: end-of-stream reached in a pipeline. The application will
 * only receive this message in the PLAYING state and every time it sets a
 * pipeline to PLAYING that is in the EOS state. The application can perform a
 * flushing seek in the pipeline, which will undo the EOS state again.
 * @GST_MESSAGE_ERROR: an error occured. When the application receives an error
 * message it should stop playback of the pipeline and not assume that more
 * data will be played.
 * @GST_MESSAGE_WARNING: a warning occured.
 * @GST_MESSAGE_INFO: an info message occured
 * @GST_MESSAGE_TAG: a tag was found.
 * @GST_MESSAGE_BUFFERING: the pipeline is buffering. When the application
 * receives a buffering message in the PLAYING state for a non-live pipeline it
 * must PAUSE the pipeline until the buffering completes, when the percentage
 * field in the message is 100%. For live pipelines, no action must be
 * performed and the buffering percentage can be used to inform the user about
 * the progress.
 * @GST_MESSAGE_STATE_CHANGED: a state change happened
 * @GST_MESSAGE_STATE_DIRTY: an element changed state in a streaming thread.
 * This message is deprecated.
 * @GST_MESSAGE_STEP_DONE: a stepping operation finished.
 * @GST_MESSAGE_CLOCK_PROVIDE: an element notifies its capability of providing
 *                             a clock. This message is used internally and
 *                             never forwarded to the application.
 * @GST_MESSAGE_CLOCK_LOST: The current clock as selected by the pipeline became
 *                          unusable. The pipeline will select a new clock on
 *                          the next PLAYING state change. The application
 *                          should set the pipeline to PAUSED and back to
 *                          PLAYING when this message is received.
 * @GST_MESSAGE_NEW_CLOCK: a new clock was selected in the pipeline.
 * @GST_MESSAGE_STRUCTURE_CHANGE: the structure of the pipeline changed. This
 * message is used internally and never forwarded to the application.
 * @GST_MESSAGE_STREAM_STATUS: status about a stream, emitted when it starts,
 *                             stops, errors, etc..
 * @GST_MESSAGE_APPLICATION: message posted by the application, possibly
 *                           via an application-specific element.
 * @GST_MESSAGE_ELEMENT: element-specific message, see the specific element's
 *                       documentation
 * @GST_MESSAGE_SEGMENT_START: pipeline started playback of a segment. This
 * message is used internally and never forwarded to the application.
 * @GST_MESSAGE_SEGMENT_DONE: pipeline completed playback of a segment. This
 * message is forwarded to the application after all elements that posted
 * @GST_MESSAGE_SEGMENT_START posted a GST_MESSAGE_SEGMENT_DONE message.
 * @GST_MESSAGE_DURATION: The duration of a pipeline changed. The application
 * can get the new duration with a duration query.
 * @GST_MESSAGE_ASYNC_START: Posted by elements when they start an ASYNC
 * #GstStateChange. This message is not forwarded to the application but is used
 * internally. Since: 0.10.13.
 * @GST_MESSAGE_ASYNC_DONE: Posted by elements when they complete an ASYNC
 * #GstStateChange. The application will only receive this message from the toplevel
 * pipeline. Since: 0.10.13
 * @GST_MESSAGE_LATENCY: Posted by elements when their latency changes. The
 * application should recalculate and distribute a new latency. Since: 0.10.12
 * @GST_MESSAGE_REQUEST_STATE: Posted by elements when they want the pipeline to
 * change state. This message is a suggestion to the application which can
 * decide to perform the state change on (part of) the pipeline. Since: 0.10.23.
 * @GST_MESSAGE_STEP_START: A stepping operation was started. Since: 0.10.24
 * @GST_MESSAGE_QOS: A buffer was dropped or an element changed its processing
 * strategy for Quality of Service reasons. Since: 0.10.29
 * @GST_MESSAGE_PROGRESS: A progress message. Since: 0.10.33
 * @GST_MESSAGE_ANY: mask for all of the above messages.
 *
 * The different message types that are available.
 */
/* NOTE: keep in sync with quark registration in gstmessage.c
 * NOTE: keep GST_MESSAGE_ANY a valid gint to avoid compiler warnings.
 */
typedef enum
{
  GST_MESSAGE_UNKNOWN           = 0,
  GST_MESSAGE_EOS               = (1 << 0),
  GST_MESSAGE_ERROR             = (1 << 1),
  GST_MESSAGE_WARNING           = (1 << 2),
  GST_MESSAGE_INFO              = (1 << 3),
  GST_MESSAGE_TAG               = (1 << 4),
  GST_MESSAGE_BUFFERING         = (1 << 5),
  GST_MESSAGE_STATE_CHANGED     = (1 << 6),
  GST_MESSAGE_STATE_DIRTY       = (1 << 7),
  GST_MESSAGE_STEP_DONE         = (1 << 8),
  GST_MESSAGE_CLOCK_PROVIDE     = (1 << 9),
  GST_MESSAGE_CLOCK_LOST        = (1 << 10),
  GST_MESSAGE_NEW_CLOCK         = (1 << 11),
  GST_MESSAGE_STRUCTURE_CHANGE  = (1 << 12),
  GST_MESSAGE_STREAM_STATUS     = (1 << 13),
  GST_MESSAGE_APPLICATION       = (1 << 14),
  GST_MESSAGE_ELEMENT           = (1 << 15),
  GST_MESSAGE_SEGMENT_START     = (1 << 16),
  GST_MESSAGE_SEGMENT_DONE      = (1 << 17),
  GST_MESSAGE_DURATION          = (1 << 18),
  GST_MESSAGE_LATENCY           = (1 << 19),
  GST_MESSAGE_ASYNC_START       = (1 << 20),
  GST_MESSAGE_ASYNC_DONE        = (1 << 21),
  GST_MESSAGE_REQUEST_STATE     = (1 << 22),
  GST_MESSAGE_STEP_START        = (1 << 23),
  GST_MESSAGE_QOS               = (1 << 24),
  GST_MESSAGE_PROGRESS          = (1 << 25),
  GST_MESSAGE_ANY               = ~0
} GstMessageType;

#include <gst/gstminiobject.h>
#include <gst/gstobject.h>
#include <gst/gstelement.h>
#include <gst/gsttaglist.h>
#include <gst/gststructure.h>
#include <gst/gstquery.h>

#define GST_TYPE_MESSAGE                         (gst_message_get_type())
#define GST_IS_MESSAGE(obj)                      (GST_IS_MINI_OBJECT_TYPE (obj, GST_TYPE_MESSAGE))
#define GST_MESSAGE_CAST(obj)                    ((GstMessage*)(obj))
#define GST_MESSAGE(obj)                         (GST_MESSAGE_CAST(obj))

/* the lock is used to handle the synchronous handling of messages,
 * the emiting thread is block until the handling thread processed
 * the message using this mutex/cond pair */
#define GST_MESSAGE_GET_LOCK(message)   (&GST_MESSAGE_CAST(message)->lock)
#define GST_MESSAGE_LOCK(message)       g_mutex_lock(GST_MESSAGE_GET_LOCK(message))
#define GST_MESSAGE_UNLOCK(message)     g_mutex_unlock(GST_MESSAGE_GET_LOCK(message))
#define GST_MESSAGE_GET_COND(message)   (&GST_MESSAGE_CAST(message)->cond)
#define GST_MESSAGE_WAIT(message)       g_cond_wait(GST_MESSAGE_GET_COND(message),GST_MESSAGE_GET_LOCK(message))
#define GST_MESSAGE_SIGNAL(message)     g_cond_signal(GST_MESSAGE_GET_COND(message))

/**
 * GST_MESSAGE_TYPE:
 * @message: a #GstMessage
 *
 * Get the #GstMessageType of @message.
 */
#define GST_MESSAGE_TYPE(message)       (GST_MESSAGE_CAST(message)->type)
/**
 * GST_MESSAGE_TYPE_NAME:
 * @message: a #GstMessage
 *
 * Get a constant string representation of the #GstMessageType of @message.
 *
 * Since: 0.10.4
 */
#define GST_MESSAGE_TYPE_NAME(message)  gst_message_type_get_name(GST_MESSAGE_TYPE(message))
/**
 * GST_MESSAGE_TIMESTAMP:
 * @message: a #GstMessage
 *
 * Get the timestamp of @message. This is the timestamp when the message
 * was created.
 */
#define GST_MESSAGE_TIMESTAMP(message)  (GST_MESSAGE_CAST(message)->timestamp)
/**
 * GST_MESSAGE_SRC:
 * @message: a #GstMessage
 *
 * Get the object that posted @message.
 */
#define GST_MESSAGE_SRC(message)        (GST_MESSAGE_CAST(message)->src)

/**
 * GST_MESSAGE_SEQNUM:
 * @message: a #GstMessage
 *
 * Get the sequence number of @message.
 */
#define GST_MESSAGE_SEQNUM(message)     (GST_MESSAGE_CAST(message)->seqnum)

/**
 * GST_MESSAGE_SRC_NAME:
 * @message: a #GstMessage
 *
 * Get the name of the object that posted @message. Returns "(NULL)" if
 * the message has no source object set.
 *
 * Since: 0.10.24
 */
#define GST_MESSAGE_SRC_NAME(message)   (GST_MESSAGE_SRC(message) ? \
    GST_OBJECT_NAME (GST_MESSAGE_SRC(message)) : "(NULL)")

/**
 * GstStructureChangeType:
 * @GST_STRUCTURE_CHANGE_TYPE_PAD_LINK: Pad linking is starting or done.
 * @GST_STRUCTURE_CHANGE_TYPE_PAD_UNLINK: Pad unlinking is starting or done.
 *
 * The type of a %GST_MESSAGE_STRUCTURE_CHANGE.
 *
 * Since: 0.10.22
 */
typedef enum {
  GST_STRUCTURE_CHANGE_TYPE_PAD_LINK   = 0,
  GST_STRUCTURE_CHANGE_TYPE_PAD_UNLINK = 1
} GstStructureChangeType;

/**
 * GstStreamStatusType:
 * @GST_STREAM_STATUS_TYPE_CREATE: A new thread need to be created.
 * @GST_STREAM_STATUS_TYPE_ENTER: a thread entered its loop function
 * @GST_STREAM_STATUS_TYPE_LEAVE: a thread left its loop function
 * @GST_STREAM_STATUS_TYPE_DESTROY: a thread is destroyed
 * @GST_STREAM_STATUS_TYPE_START: a thread is started
 * @GST_STREAM_STATUS_TYPE_PAUSE: a thread is paused
 * @GST_STREAM_STATUS_TYPE_STOP: a thread is stopped
 *
 * The type of a %GST_MESSAGE_STREAM_STATUS. The stream status messages inform the
 * application of new streaming threads and their status.
 *
 * Since: 0.10.24
 */
typedef enum {
  GST_STREAM_STATUS_TYPE_CREATE   = 0,
  GST_STREAM_STATUS_TYPE_ENTER    = 1,
  GST_STREAM_STATUS_TYPE_LEAVE    = 2,
  GST_STREAM_STATUS_TYPE_DESTROY  = 3,

  GST_STREAM_STATUS_TYPE_START    = 8,
  GST_STREAM_STATUS_TYPE_PAUSE    = 9,
  GST_STREAM_STATUS_TYPE_STOP     = 10
} GstStreamStatusType;

/**
 * GstProgressType:
 * @GST_PROGRESS_TYPE_START: A new task started.
 * @GST_PROGRESS_TYPE_CONTINUE: A task completed and a new one continues.
 * @GST_PROGRESS_TYPE_COMPLETE: A task completed.
 * @GST_PROGRESS_TYPE_CANCELED: A task was canceled.
 * @GST_PROGRESS_TYPE_ERROR: A task caused an error. An error message is also
 *          posted on the bus.
 *
 * The type of a %GST_MESSAGE_PROGRESS. The progress messages inform the
 * application of the status of assynchronous tasks.
 *
 * Since: 0.10.33
 */
typedef enum {
  GST_PROGRESS_TYPE_START    = 0,
  GST_PROGRESS_TYPE_CONTINUE = 1,
  GST_PROGRESS_TYPE_COMPLETE = 2,
  GST_PROGRESS_TYPE_CANCELED = 3,
  GST_PROGRESS_TYPE_ERROR    = 4,
} GstProgressType;

/**
 * GstMessage:
 * @mini_object: the parent structure
 * @type: the #GstMessageType of the message
 * @timestamp: the timestamp of the message
 * @src: the src of the message
 * @seqnum: the sequence number of the message
 *
 * A #GstMessage.
 */
struct _GstMessage
{
  GstMiniObject   mini_object;

  /*< public > *//* with COW */
  GstMessageType  type;
  guint64         timestamp;
  GstObject      *src;
  guint32         seqnum;

  /*< private >*//* with MESSAGE_LOCK */
  GMutex          lock;                 /* lock and cond for async delivery */
  GCond           cond;
};

GType           gst_message_get_type            (void);

const gchar*    gst_message_type_get_name       (GstMessageType type);
GQuark          gst_message_type_to_quark       (GstMessageType type);

/* refcounting */
/**
 * gst_message_ref:
 * @msg: the message to ref
 *
 * Convenience macro to increase the reference count of the message.
 *
 * Returns: @msg (for convenience when doing assignments)
 */
#ifdef _FOOL_GTK_DOC_
G_INLINE_FUNC GstMessage * gst_message_ref (GstMessage * msg);
#endif

static inline GstMessage *
gst_message_ref (GstMessage * msg)
{
  return (GstMessage *) gst_mini_object_ref (GST_MINI_OBJECT_CAST (msg));
}

/**
 * gst_message_unref:
 * @msg: the message to unref
 *
 * Convenience macro to decrease the reference count of the message, possibly
 * freeing it.
 */
#ifdef _FOOL_GTK_DOC_
G_INLINE_FUNC void gst_message_unref (GstMessage * msg);
#endif

static inline void
gst_message_unref (GstMessage * msg)
{
  gst_mini_object_unref (GST_MINI_OBJECT_CAST (msg));
}

/* copy message */
/**
 * gst_message_copy:
 * @msg: the message to copy
 *
 * Creates a copy of the message. Returns a copy of the message.
 *
 * Returns: (transfer full): a new copy of @msg.
 *
 * MT safe
 */
#ifdef _FOOL_GTK_DOC_
G_INLINE_FUNC GstMessage * gst_message_copy (const GstMessage * msg);
#endif

static inline GstMessage *
gst_message_copy (const GstMessage * msg)
{
  return GST_MESSAGE_CAST (gst_mini_object_copy (GST_MINI_OBJECT_CONST_CAST (msg)));
}

/**
 * gst_message_is_writable:
 * @msg: a #GstMessage
 *
 * Tests if you can safely write into a message's structure or validly
 * modify the seqnum and timestamp fields.
 */
#define         gst_message_is_writable(msg)     gst_mini_object_is_writable (GST_MINI_OBJECT_CAST (msg))
/**
 * gst_message_make_writable:
 * @msg: (transfer full): the message to make writable
 *
 * Checks if a message is writable. If not, a writable copy is made and
 * returned.
 *
 * Returns: (transfer full): a message (possibly a duplicate) that is writable.
 *
 * MT safe
 */
#define         gst_message_make_writable(msg)  GST_MESSAGE_CAST (gst_mini_object_make_writable (GST_MINI_OBJECT_CAST (msg)))
/**
 * gst_message_replace:
 * @old_message: (inout) (transfer full): pointer to a pointer to a #GstMessage
 *     to be replaced.
 * @new_message: (allow-none) (transfer none): pointer to a #GstMessage that will
 *     replace the message pointed to by @old_message.
 *
 * Modifies a pointer to a #GstMessage to point to a different #GstMessage. The
 * modification is done atomically (so this is useful for ensuring thread safety
 * in some cases), and the reference counts are updated appropriately (the old
 * message is unreffed, the new one is reffed).
 *
 * Either @new_message or the #GstMessage pointed to by @old_message may be NULL.
 *
 * Returns: TRUE if @new_message was different from @old_message
 */
#ifdef _FOOL_GTK_DOC_
G_INLINE_FUNC gboolean gst_message_replace (GstMessage **old_message, GstMessage *new_message);
#endif

static inline gboolean
gst_message_replace (GstMessage **old_message, GstMessage *new_message)
{
  return gst_mini_object_replace ((GstMiniObject **) old_message, (GstMiniObject *) new_message);
}


/* custom messages */
GstMessage *    gst_message_new_custom          (GstMessageType type,
                                                 GstObject    * src,
                                                 GstStructure * structure) G_GNUC_MALLOC;
const GstStructure *
                gst_message_get_structure       (GstMessage *message);

gboolean        gst_message_has_name            (GstMessage *message, const gchar *name);

/* identifiers for events and messages */
guint32         gst_message_get_seqnum          (GstMessage *message);
void            gst_message_set_seqnum          (GstMessage *message, guint32 seqnum);

/* EOS */
GstMessage *    gst_message_new_eos             (GstObject * src) G_GNUC_MALLOC;

/* ERROR */

GstMessage *    gst_message_new_error           (GstObject * src, GError * error, const gchar * debug) G_GNUC_MALLOC;
void            gst_message_parse_error         (GstMessage *message, GError **gerror, gchar **debug);

/* WARNING */
GstMessage *    gst_message_new_warning         (GstObject * src, GError * error, const gchar * debug) G_GNUC_MALLOC;
void            gst_message_parse_warning       (GstMessage *message, GError **gerror, gchar **debug);

/* INFO */
GstMessage *    gst_message_new_info            (GstObject * src, GError * error, const gchar * debug) G_GNUC_MALLOC;
void            gst_message_parse_info          (GstMessage *message, GError **gerror, gchar **debug);

/* TAG */
GstMessage *    gst_message_new_tag             (GstObject * src, GstTagList * tag_list) G_GNUC_MALLOC;
void            gst_message_parse_tag           (GstMessage *message, GstTagList **tag_list);

/* BUFFERING */
GstMessage *    gst_message_new_buffering         (GstObject * src, gint percent) G_GNUC_MALLOC;
void            gst_message_parse_buffering       (GstMessage *message, gint *percent);
void            gst_message_set_buffering_stats   (GstMessage *message, GstBufferingMode mode,
                                                   gint avg_in, gint avg_out,
                                                   gint64 buffering_left);
void            gst_message_parse_buffering_stats (GstMessage *message, GstBufferingMode *mode,
                                                   gint *avg_in, gint *avg_out,
                                                   gint64 *buffering_left);

/* STATE_CHANGED */
GstMessage *    gst_message_new_state_changed   (GstObject * src, GstState oldstate,
                                                 GstState newstate, GstState pending) G_GNUC_MALLOC;
void            gst_message_parse_state_changed (GstMessage *message, GstState *oldstate,
                                                 GstState *newstate, GstState *pending);

/* STATE_DIRTY */
GstMessage *    gst_message_new_state_dirty     (GstObject * src) G_GNUC_MALLOC;

/* STEP_DONE */
GstMessage *    gst_message_new_step_done       (GstObject * src, GstFormat format, guint64 amount,
                                                 gdouble rate, gboolean flush, gboolean intermediate,
                                                 guint64 duration, gboolean eos) G_GNUC_MALLOC;
void            gst_message_parse_step_done     (GstMessage * message, GstFormat *format, guint64 *amount,
                                                 gdouble *rate, gboolean *flush, gboolean *intermediate,
                                                 guint64 *duration, gboolean *eos);
/* CLOCK_PROVIDE */
GstMessage *    gst_message_new_clock_provide   (GstObject * src, GstClock *clock, gboolean ready) G_GNUC_MALLOC;
void            gst_message_parse_clock_provide (GstMessage *message, GstClock **clock,
                                                 gboolean *ready);

/* CLOCK_LOST */
GstMessage *    gst_message_new_clock_lost      (GstObject * src, GstClock *clock) G_GNUC_MALLOC;
void            gst_message_parse_clock_lost    (GstMessage *message, GstClock **clock);

/* NEW_CLOCK */
GstMessage *    gst_message_new_new_clock       (GstObject * src, GstClock *clock) G_GNUC_MALLOC;
void            gst_message_parse_new_clock     (GstMessage *message, GstClock **clock);

/* APPLICATION */
GstMessage *    gst_message_new_application     (GstObject * src, GstStructure * structure) G_GNUC_MALLOC;

/* ELEMENT */
GstMessage *    gst_message_new_element         (GstObject * src, GstStructure * structure) G_GNUC_MALLOC;

/* SEGMENT_START */
GstMessage *    gst_message_new_segment_start   (GstObject * src, GstFormat format, gint64 position) G_GNUC_MALLOC;
void            gst_message_parse_segment_start (GstMessage *message, GstFormat *format,
                                                 gint64 *position);

/* SEGMENT_DONE */
GstMessage *    gst_message_new_segment_done    (GstObject * src, GstFormat format, gint64 position) G_GNUC_MALLOC;
void            gst_message_parse_segment_done  (GstMessage *message, GstFormat *format,
                                                 gint64 *position);

/* DURATION */
GstMessage *    gst_message_new_duration        (GstObject * src, GstFormat format, gint64 duration) G_GNUC_MALLOC;
void            gst_message_parse_duration      (GstMessage *message, GstFormat *format,
                                                 gint64 *duration);

/* LATENCY */
GstMessage *    gst_message_new_latency         (GstObject * src) G_GNUC_MALLOC;

/* ASYNC_START */
GstMessage *    gst_message_new_async_start     (GstObject * src) G_GNUC_MALLOC;

/* ASYNC_DONE */
GstMessage *    gst_message_new_async_done      (GstObject * src, gboolean reset_time) G_GNUC_MALLOC;
void            gst_message_parse_async_done    (GstMessage *message, gboolean *reset_time);

/* STRUCTURE CHANGE */
GstMessage *    gst_message_new_structure_change   (GstObject * src, GstStructureChangeType type,
                                                    GstElement *owner, gboolean busy) G_GNUC_MALLOC;
void            gst_message_parse_structure_change (GstMessage *message, GstStructureChangeType *type,
                                                    GstElement **owner, gboolean *busy);

/* STREAM STATUS */
GstMessage *    gst_message_new_stream_status        (GstObject * src, GstStreamStatusType type,
                                                      GstElement *owner) G_GNUC_MALLOC;
void            gst_message_parse_stream_status      (GstMessage *message, GstStreamStatusType *type,
                                                      GstElement **owner);
void            gst_message_set_stream_status_object (GstMessage *message, const GValue *object);
const GValue *  gst_message_get_stream_status_object (GstMessage *message);

/* REQUEST_STATE */
GstMessage *    gst_message_new_request_state   (GstObject * src, GstState state) G_GNUC_MALLOC;
void            gst_message_parse_request_state (GstMessage * message, GstState *state);

/* STEP_START */
GstMessage *    gst_message_new_step_start      (GstObject * src, gboolean active, GstFormat format,
                                                 guint64 amount, gdouble rate, gboolean flush,
                                                 gboolean intermediate) G_GNUC_MALLOC;
void            gst_message_parse_step_start    (GstMessage * message, gboolean *active, GstFormat *format,
                                                 guint64 *amount, gdouble *rate, gboolean *flush,
                                                 gboolean *intermediate);

/* QOS */
GstMessage *    gst_message_new_qos             (GstObject * src, gboolean live, guint64 running_time,
                                                 guint64 stream_time, guint64 timestamp, guint64 duration) G_GNUC_MALLOC;
void            gst_message_set_qos_values      (GstMessage * message, gint64 jitter, gdouble proportion,
                                                 gint quality);
void            gst_message_set_qos_stats       (GstMessage * message, GstFormat format, guint64 processed,
                                                 guint64 dropped);
void            gst_message_parse_qos           (GstMessage * message, gboolean * live, guint64 * running_time,
                                                 guint64 * stream_time, guint64 * timestamp, guint64 * duration);
void            gst_message_parse_qos_values    (GstMessage * message, gint64 * jitter, gdouble * proportion,
                                                 gint * quality);
void            gst_message_parse_qos_stats     (GstMessage * message, GstFormat * format, guint64 * processed,
                                                 guint64 * dropped);
/* PROGRESS */
GstMessage *    gst_message_new_progress           (GstObject * src, GstProgressType type, const gchar *code,
                                                    const gchar *text) G_GNUC_MALLOC;
void            gst_message_parse_progress         (GstMessage * message, GstProgressType * type, gchar ** code,
                                                    gchar ** text);


G_END_DECLS

#endif /* __GST_MESSAGE_H__ */