/*-*- Mode: C; c-basic-offset: 2 -*-*/ /* GStreamer pulseaudio plugin * * Copyright (c) 2004-2008 Lennart Poettering * (c) 2009 Wim Taymans * * gst-pulse is free software; you can redistribute it and/or modify * it under the terms of the GNU Lesser General Public License as * published by the Free Software Foundation; either version 2.1 of the * License, or (at your option) any later version. * * gst-pulse 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 * Lesser General Public License for more details. * * You should have received a copy of the GNU Lesser General Public * License along with gst-pulse; if not, write to the Free Software * Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307 * USA. */ /** * SECTION:element-pulsesink * @see_also: pulsesrc, pulsemixer * * This element outputs audio to a * PulseAudio sound server. * * * Example pipelines * |[ * gst-launch -v filesrc location=sine.ogg ! oggdemux ! vorbisdec ! audioconvert ! audioresample ! pulsesink * ]| Play an Ogg/Vorbis file. * |[ * gst-launch -v audiotestsrc ! audioconvert ! volume volume=0.4 ! pulsesink * ]| Play a 440Hz sine wave. * */ #ifdef HAVE_CONFIG_H #include "config.h" #endif #include #include #include #include #include #include #include /* only used for GST_PLUGINS_BASE_VERSION_* */ #include "pulsesink.h" #include "pulseutil.h" GST_DEBUG_CATEGORY_EXTERN (pulse_debug); #define GST_CAT_DEFAULT pulse_debug /* according to * http://www.pulseaudio.org/ticket/314 * we need pulse-0.9.12 to use sink volume properties */ #define DEFAULT_SERVER NULL #define DEFAULT_DEVICE NULL #define DEFAULT_DEVICE_NAME NULL #define DEFAULT_VOLUME 1.0 #define DEFAULT_MUTE FALSE #define MAX_VOLUME 10.0 enum { PROP_0, PROP_SERVER, PROP_DEVICE, PROP_DEVICE_NAME, PROP_VOLUME, PROP_MUTE, PROP_CLIENT, PROP_STREAM_PROPERTIES, PROP_LAST }; #define GST_TYPE_PULSERING_BUFFER \ (gst_pulseringbuffer_get_type()) #define GST_PULSERING_BUFFER(obj) \ (G_TYPE_CHECK_INSTANCE_CAST((obj),GST_TYPE_PULSERING_BUFFER,GstPulseRingBuffer)) #define GST_PULSERING_BUFFER_CLASS(klass) \ (G_TYPE_CHECK_CLASS_CAST((klass),GST_TYPE_PULSERING_BUFFER,GstPulseRingBufferClass)) #define GST_PULSERING_BUFFER_GET_CLASS(obj) \ (G_TYPE_INSTANCE_GET_CLASS ((obj), GST_TYPE_PULSERING_BUFFER, GstPulseRingBufferClass)) #define GST_PULSERING_BUFFER_CAST(obj) \ ((GstPulseRingBuffer *)obj) #define GST_IS_PULSERING_BUFFER(obj) \ (G_TYPE_CHECK_INSTANCE_TYPE((obj),GST_TYPE_PULSERING_BUFFER)) #define GST_IS_PULSERING_BUFFER_CLASS(klass)\ (G_TYPE_CHECK_CLASS_TYPE((klass),GST_TYPE_PULSERING_BUFFER)) typedef struct _GstPulseRingBuffer GstPulseRingBuffer; typedef struct _GstPulseRingBufferClass GstPulseRingBufferClass; typedef struct _GstPulseContext GstPulseContext; /* Store the PA contexts in a hash table to allow easy sharing among * multiple instances of the sink. Keys are $context_name@$server_name * (strings) and values should be GstPulseContext pointers. */ struct _GstPulseContext { pa_context *context; GSList *ring_buffers; }; static GHashTable *gst_pulse_shared_contexts = NULL; /* use one static main-loop for all instances * this is needed to make the context sharing work as the contexts are * released when releasing their parent main-loop */ static pa_threaded_mainloop *mainloop = NULL; static guint mainloop_ref_ct = 0; /* lock for access to shared resources */ static GMutex *pa_shared_ressource_mutex = NULL; /* We keep a custom ringbuffer that is backed up by data allocated by * pulseaudio. We must also overide the commit function to write into * pulseaudio memory instead. */ struct _GstPulseRingBuffer { GstRingBuffer object; gchar *context_name; gchar *stream_name; pa_context *context; pa_stream *stream; pa_sample_spec sample_spec; #ifdef HAVE_PULSE_0_9_16 void *m_data; size_t m_towrite; size_t m_writable; gint64 m_offset; gint64 m_lastoffset; #endif gboolean corked:1; gboolean in_commit:1; gboolean paused:1; }; struct _GstPulseRingBufferClass { GstRingBufferClass parent_class; }; static GType gst_pulseringbuffer_get_type (void); static void gst_pulseringbuffer_finalize (GObject * object); static GstRingBufferClass *ring_parent_class = NULL; static gboolean gst_pulseringbuffer_open_device (GstRingBuffer * buf); static gboolean gst_pulseringbuffer_close_device (GstRingBuffer * buf); static gboolean gst_pulseringbuffer_acquire (GstRingBuffer * buf, GstRingBufferSpec * spec); static gboolean gst_pulseringbuffer_release (GstRingBuffer * buf); static gboolean gst_pulseringbuffer_start (GstRingBuffer * buf); static gboolean gst_pulseringbuffer_pause (GstRingBuffer * buf); static gboolean gst_pulseringbuffer_stop (GstRingBuffer * buf); static void gst_pulseringbuffer_clear (GstRingBuffer * buf); static guint gst_pulseringbuffer_commit (GstRingBuffer * buf, guint64 * sample, guchar * data, gint in_samples, gint out_samples, gint * accum); G_DEFINE_TYPE (GstPulseRingBuffer, gst_pulseringbuffer, GST_TYPE_RING_BUFFER); static void gst_pulsesink_init_contexts (void) { g_assert (pa_shared_ressource_mutex == NULL); pa_shared_ressource_mutex = g_mutex_new (); gst_pulse_shared_contexts = g_hash_table_new_full (g_str_hash, g_str_equal, g_free, NULL); } static void gst_pulseringbuffer_class_init (GstPulseRingBufferClass * klass) { GObjectClass *gobject_class; GstRingBufferClass *gstringbuffer_class; gobject_class = (GObjectClass *) klass; gstringbuffer_class = (GstRingBufferClass *) klass; ring_parent_class = g_type_class_peek_parent (klass); gobject_class->finalize = gst_pulseringbuffer_finalize; gstringbuffer_class->open_device = GST_DEBUG_FUNCPTR (gst_pulseringbuffer_open_device); gstringbuffer_class->close_device = GST_DEBUG_FUNCPTR (gst_pulseringbuffer_close_device); gstringbuffer_class->acquire = GST_DEBUG_FUNCPTR (gst_pulseringbuffer_acquire); gstringbuffer_class->release = GST_DEBUG_FUNCPTR (gst_pulseringbuffer_release); gstringbuffer_class->start = GST_DEBUG_FUNCPTR (gst_pulseringbuffer_start); gstringbuffer_class->pause = GST_DEBUG_FUNCPTR (gst_pulseringbuffer_pause); gstringbuffer_class->resume = GST_DEBUG_FUNCPTR (gst_pulseringbuffer_start); gstringbuffer_class->stop = GST_DEBUG_FUNCPTR (gst_pulseringbuffer_stop); gstringbuffer_class->clear_all = GST_DEBUG_FUNCPTR (gst_pulseringbuffer_clear); gstringbuffer_class->commit = GST_DEBUG_FUNCPTR (gst_pulseringbuffer_commit); } static void gst_pulseringbuffer_init (GstPulseRingBuffer * pbuf) { pbuf->stream_name = NULL; pbuf->context = NULL; pbuf->stream = NULL; #ifdef HAVE_PULSE_0_9_13 pa_sample_spec_init (&pbuf->sample_spec); #else pbuf->sample_spec.format = PA_SAMPLE_INVALID; pbuf->sample_spec.rate = 0; pbuf->sample_spec.channels = 0; #endif #ifdef HAVE_PULSE_0_9_16 pbuf->m_data = NULL; pbuf->m_towrite = 0; pbuf->m_writable = 0; pbuf->m_offset = 0; pbuf->m_lastoffset = 0; #endif pbuf->corked = TRUE; pbuf->in_commit = FALSE; pbuf->paused = FALSE; } static void gst_pulsering_destroy_stream (GstPulseRingBuffer * pbuf) { if (pbuf->stream) { #ifdef HAVE_PULSE_0_9_16 if (pbuf->m_data) { /* drop shm memory buffer */ pa_stream_cancel_write (pbuf->stream); /* reset internal variables */ pbuf->m_data = NULL; pbuf->m_towrite = 0; pbuf->m_writable = 0; pbuf->m_offset = 0; pbuf->m_lastoffset = 0; } #endif pa_stream_disconnect (pbuf->stream); /* Make sure we don't get any further callbacks */ pa_stream_set_state_callback (pbuf->stream, NULL, NULL); pa_stream_set_write_callback (pbuf->stream, NULL, NULL); pa_stream_set_underflow_callback (pbuf->stream, NULL, NULL); pa_stream_set_overflow_callback (pbuf->stream, NULL, NULL); pa_stream_unref (pbuf->stream); pbuf->stream = NULL; } g_free (pbuf->stream_name); pbuf->stream_name = NULL; } static void gst_pulsering_destroy_context (GstPulseRingBuffer * pbuf) { g_mutex_lock (pa_shared_ressource_mutex); GST_DEBUG_OBJECT (pbuf, "destroying ringbuffer %p", pbuf); gst_pulsering_destroy_stream (pbuf); if (pbuf->context) { pa_context_unref (pbuf->context); pbuf->context = NULL; } if (pbuf->context_name) { GstPulseContext *pctx; pctx = g_hash_table_lookup (gst_pulse_shared_contexts, pbuf->context_name); GST_DEBUG_OBJECT (pbuf, "releasing context with name %s, pbuf=%p, pctx=%p", pbuf->context_name, pbuf, pctx); if (pctx) { pctx->ring_buffers = g_slist_remove (pctx->ring_buffers, pbuf); if (pctx->ring_buffers == NULL) { GST_DEBUG_OBJECT (pbuf, "destroying final context with name %s, pbuf=%p, pctx=%p", pbuf->context_name, pbuf, pctx); pa_context_disconnect (pctx->context); /* Make sure we don't get any further callbacks */ pa_context_set_state_callback (pctx->context, NULL, NULL); #ifdef HAVE_PULSE_0_9_12 pa_context_set_subscribe_callback (pctx->context, NULL, NULL); #endif g_hash_table_remove (gst_pulse_shared_contexts, pbuf->context_name); pa_context_unref (pctx->context); g_slice_free (GstPulseContext, pctx); } } g_free (pbuf->context_name); pbuf->context_name = NULL; } g_mutex_unlock (pa_shared_ressource_mutex); } static void gst_pulseringbuffer_finalize (GObject * object) { GstPulseRingBuffer *ringbuffer; ringbuffer = GST_PULSERING_BUFFER_CAST (object); gst_pulsering_destroy_context (ringbuffer); G_OBJECT_CLASS (ring_parent_class)->finalize (object); } #define CONTEXT_OK(c) ((c) && PA_CONTEXT_IS_GOOD (pa_context_get_state ((c)))) #define STREAM_OK(s) ((s) && PA_STREAM_IS_GOOD (pa_stream_get_state ((s)))) static gboolean gst_pulsering_is_dead (GstPulseSink * psink, GstPulseRingBuffer * pbuf, gboolean check_stream) { if (!CONTEXT_OK (pbuf->context)) goto error; if (check_stream && !STREAM_OK (pbuf->stream)) goto error; return FALSE; error: { const gchar *err_str = pbuf->context ? pa_strerror (pa_context_errno (pbuf->context)) : NULL; GST_ELEMENT_ERROR (psink, RESOURCE, FAILED, ("Disconnected: %s", err_str), (NULL)); return TRUE; } } static void gst_pulsering_context_state_cb (pa_context * c, void *userdata) { pa_context_state_t state; pa_threaded_mainloop *mainloop = (pa_threaded_mainloop *) userdata; state = pa_context_get_state (c); GST_LOG ("got new context state %d", state); switch (state) { case PA_CONTEXT_READY: case PA_CONTEXT_TERMINATED: case PA_CONTEXT_FAILED: GST_LOG ("signaling"); pa_threaded_mainloop_signal (mainloop, 0); break; case PA_CONTEXT_UNCONNECTED: case PA_CONTEXT_CONNECTING: case PA_CONTEXT_AUTHORIZING: case PA_CONTEXT_SETTING_NAME: break; } } #ifdef HAVE_PULSE_0_9_12 static void gst_pulsering_context_subscribe_cb (pa_context * c, pa_subscription_event_type_t t, uint32_t idx, void *userdata) { GstPulseSink *psink; GstPulseContext *pctx = (GstPulseContext *) userdata; GSList *walk; if (t != (PA_SUBSCRIPTION_EVENT_SINK_INPUT | PA_SUBSCRIPTION_EVENT_CHANGE) && t != (PA_SUBSCRIPTION_EVENT_SINK_INPUT | PA_SUBSCRIPTION_EVENT_NEW)) return; for (walk = pctx->ring_buffers; walk; walk = g_slist_next (walk)) { GstPulseRingBuffer *pbuf = (GstPulseRingBuffer *) walk->data; psink = GST_PULSESINK_CAST (GST_OBJECT_PARENT (pbuf)); GST_LOG_OBJECT (psink, "type %d, idx %u", t, idx); if (!pbuf->stream) continue; if (idx != pa_stream_get_index (pbuf->stream)) continue; /* Actually this event is also triggered when other properties of * the stream change that are unrelated to the volume. However it is * probably cheaper to signal the change here and check for the * volume when the GObject property is read instead of querying it always. */ /* inform streaming thread to notify */ g_atomic_int_compare_and_exchange (&psink->notify, 0, 1); } } #endif /* will be called when the device should be opened. In this case we will connect * to the server. We should not try to open any streams in this state. */ static gboolean gst_pulseringbuffer_open_device (GstRingBuffer * buf) { GstPulseSink *psink; GstPulseRingBuffer *pbuf; GstPulseContext *pctx; pa_mainloop_api *api; psink = GST_PULSESINK_CAST (GST_OBJECT_PARENT (buf)); pbuf = GST_PULSERING_BUFFER_CAST (buf); g_assert (!pbuf->stream); g_assert (psink->client_name); if (psink->server) pbuf->context_name = g_strdup_printf ("%s@%s", psink->client_name, psink->server); else pbuf->context_name = g_strdup (psink->client_name); pa_threaded_mainloop_lock (mainloop); g_mutex_lock (pa_shared_ressource_mutex); pctx = g_hash_table_lookup (gst_pulse_shared_contexts, pbuf->context_name); if (pctx == NULL) { pctx = g_slice_new0 (GstPulseContext); /* get the mainloop api and create a context */ GST_INFO_OBJECT (psink, "new context with name %s, pbuf=%p, pctx=%p", pbuf->context_name, pbuf, pctx); api = pa_threaded_mainloop_get_api (mainloop); if (!(pctx->context = pa_context_new (api, pbuf->context_name))) goto create_failed; pctx->ring_buffers = g_slist_prepend (pctx->ring_buffers, pbuf); g_hash_table_insert (gst_pulse_shared_contexts, g_strdup (pbuf->context_name), (gpointer) pctx); /* register some essential callbacks */ pa_context_set_state_callback (pctx->context, gst_pulsering_context_state_cb, mainloop); #ifdef HAVE_PULSE_0_9_12 pa_context_set_subscribe_callback (pctx->context, gst_pulsering_context_subscribe_cb, pctx); #endif /* try to connect to the server and wait for completioni, we don't want to * autospawn a deamon */ GST_LOG_OBJECT (psink, "connect to server %s", GST_STR_NULL (psink->server)); if (pa_context_connect (pctx->context, psink->server, PA_CONTEXT_NOAUTOSPAWN, NULL) < 0) goto connect_failed; } else { GST_INFO_OBJECT (psink, "reusing shared context with name %s, pbuf=%p, pctx=%p", pbuf->context_name, pbuf, pctx); pctx->ring_buffers = g_slist_prepend (pctx->ring_buffers, pbuf); } /* context created or shared okay */ pbuf->context = pa_context_ref (pctx->context); for (;;) { pa_context_state_t state; state = pa_context_get_state (pbuf->context); GST_LOG_OBJECT (psink, "context state is now %d", state); if (!PA_CONTEXT_IS_GOOD (state)) goto connect_failed; if (state == PA_CONTEXT_READY) break; /* Wait until the context is ready */ GST_LOG_OBJECT (psink, "waiting.."); pa_threaded_mainloop_wait (mainloop); } GST_LOG_OBJECT (psink, "opened the device"); g_mutex_unlock (pa_shared_ressource_mutex); pa_threaded_mainloop_unlock (mainloop); return TRUE; /* ERRORS */ unlock_and_fail: { g_mutex_unlock (pa_shared_ressource_mutex); gst_pulsering_destroy_context (pbuf); pa_threaded_mainloop_unlock (mainloop); return FALSE; } create_failed: { GST_ELEMENT_ERROR (psink, RESOURCE, FAILED, ("Failed to create context"), (NULL)); g_slice_free (GstPulseContext, pctx); goto unlock_and_fail; } connect_failed: { GST_ELEMENT_ERROR (psink, RESOURCE, FAILED, ("Failed to connect: %s", pa_strerror (pa_context_errno (pctx->context))), (NULL)); goto unlock_and_fail; } } /* close the device */ static gboolean gst_pulseringbuffer_close_device (GstRingBuffer * buf) { GstPulseSink *psink; GstPulseRingBuffer *pbuf; pbuf = GST_PULSERING_BUFFER_CAST (buf); psink = GST_PULSESINK_CAST (GST_OBJECT_PARENT (buf)); GST_LOG_OBJECT (psink, "closing device"); pa_threaded_mainloop_lock (mainloop); gst_pulsering_destroy_context (pbuf); pa_threaded_mainloop_unlock (mainloop); GST_LOG_OBJECT (psink, "closed device"); return TRUE; } static void gst_pulsering_stream_state_cb (pa_stream * s, void *userdata) { GstPulseSink *psink; GstPulseRingBuffer *pbuf; pa_stream_state_t state; pbuf = GST_PULSERING_BUFFER_CAST (userdata); psink = GST_PULSESINK_CAST (GST_OBJECT_PARENT (pbuf)); state = pa_stream_get_state (s); GST_LOG_OBJECT (psink, "got new stream state %d", state); switch (state) { case PA_STREAM_READY: case PA_STREAM_FAILED: case PA_STREAM_TERMINATED: GST_LOG_OBJECT (psink, "signaling"); pa_threaded_mainloop_signal (mainloop, 0); break; case PA_STREAM_UNCONNECTED: case PA_STREAM_CREATING: break; } } static void gst_pulsering_stream_request_cb (pa_stream * s, size_t length, void *userdata) { GstPulseSink *psink; GstRingBuffer *rbuf; GstPulseRingBuffer *pbuf; rbuf = GST_RING_BUFFER_CAST (userdata); pbuf = GST_PULSERING_BUFFER_CAST (userdata); psink = GST_PULSESINK_CAST (GST_OBJECT_PARENT (pbuf)); GST_LOG_OBJECT (psink, "got request for length %" G_GSIZE_FORMAT, length); if (pbuf->in_commit && (length >= rbuf->spec.segsize)) { /* only signal when we are waiting in the commit thread * and got request for atleast a segment */ pa_threaded_mainloop_signal (mainloop, 0); } } static void gst_pulsering_stream_underflow_cb (pa_stream * s, void *userdata) { GstPulseSink *psink; GstPulseRingBuffer *pbuf; pbuf = GST_PULSERING_BUFFER_CAST (userdata); psink = GST_PULSESINK_CAST (GST_OBJECT_PARENT (pbuf)); GST_WARNING_OBJECT (psink, "Got underflow"); } static void gst_pulsering_stream_overflow_cb (pa_stream * s, void *userdata) { GstPulseSink *psink; GstPulseRingBuffer *pbuf; pbuf = GST_PULSERING_BUFFER_CAST (userdata); psink = GST_PULSESINK_CAST (GST_OBJECT_PARENT (pbuf)); GST_WARNING_OBJECT (psink, "Got overflow"); } static void gst_pulsering_stream_latency_cb (pa_stream * s, void *userdata) { GstPulseSink *psink; GstPulseRingBuffer *pbuf; const pa_timing_info *info; pa_usec_t sink_usec; info = pa_stream_get_timing_info (s); pbuf = GST_PULSERING_BUFFER_CAST (userdata); psink = GST_PULSESINK_CAST (GST_OBJECT_PARENT (pbuf)); if (!info) { GST_LOG_OBJECT (psink, "latency update (information unknown)"); return; } #ifdef HAVE_PULSE_0_9_11 sink_usec = info->configured_sink_usec; #else sink_usec = 0; #endif GST_LOG_OBJECT (psink, "latency_update, %" G_GUINT64_FORMAT ", %d:%" G_GINT64_FORMAT ", %d:%" G_GUINT64_FORMAT ", %" G_GUINT64_FORMAT ", %" G_GUINT64_FORMAT, GST_TIMEVAL_TO_TIME (info->timestamp), info->write_index_corrupt, info->write_index, info->read_index_corrupt, info->read_index, info->sink_usec, sink_usec); } static void gst_pulsering_stream_suspended_cb (pa_stream * p, void *userdata) { GstPulseSink *psink; GstPulseRingBuffer *pbuf; pbuf = GST_PULSERING_BUFFER_CAST (userdata); psink = GST_PULSESINK_CAST (GST_OBJECT_PARENT (pbuf)); if (pa_stream_is_suspended (p)) GST_DEBUG_OBJECT (psink, "stream suspended"); else GST_DEBUG_OBJECT (psink, "stream resumed"); } #ifdef HAVE_PULSE_0_9_11 static void gst_pulsering_stream_started_cb (pa_stream * p, void *userdata) { GstPulseSink *psink; GstPulseRingBuffer *pbuf; pbuf = GST_PULSERING_BUFFER_CAST (userdata); psink = GST_PULSESINK_CAST (GST_OBJECT_PARENT (pbuf)); GST_DEBUG_OBJECT (psink, "stream started"); } #endif #ifdef HAVE_PULSE_0_9_15 static void gst_pulsering_stream_event_cb (pa_stream * p, const char *name, pa_proplist * pl, void *userdata) { GstPulseSink *psink; GstPulseRingBuffer *pbuf; pbuf = GST_PULSERING_BUFFER_CAST (userdata); psink = GST_PULSESINK_CAST (GST_OBJECT_PARENT (pbuf)); if (!strcmp (name, PA_STREAM_EVENT_REQUEST_CORK)) { /* the stream wants to PAUSE, post a message for the application. */ GST_DEBUG_OBJECT (psink, "got request for CORK"); gst_element_post_message (GST_ELEMENT_CAST (psink), gst_message_new_request_state (GST_OBJECT_CAST (psink), GST_STATE_PAUSED)); } else if (!strcmp (name, PA_STREAM_EVENT_REQUEST_UNCORK)) { GST_DEBUG_OBJECT (psink, "got request for UNCORK"); gst_element_post_message (GST_ELEMENT_CAST (psink), gst_message_new_request_state (GST_OBJECT_CAST (psink), GST_STATE_PLAYING)); } else { GST_DEBUG_OBJECT (psink, "got unknown event %s", name); } } #endif /* This method should create a new stream of the given @spec. No playback should * start yet so we start in the corked state. */ static gboolean gst_pulseringbuffer_acquire (GstRingBuffer * buf, GstRingBufferSpec * spec) { GstPulseSink *psink; GstPulseRingBuffer *pbuf; pa_buffer_attr wanted; const pa_buffer_attr *actual; pa_channel_map channel_map; pa_operation *o = NULL; #ifdef HAVE_PULSE_0_9_20 pa_cvolume v; #endif pa_cvolume *pv = NULL; pa_stream_flags_t flags; const gchar *name; GstAudioClock *clock; psink = GST_PULSESINK_CAST (GST_OBJECT_PARENT (buf)); pbuf = GST_PULSERING_BUFFER_CAST (buf); GST_LOG_OBJECT (psink, "creating sample spec"); /* convert the gstreamer sample spec to the pulseaudio format */ if (!gst_pulse_fill_sample_spec (spec, &pbuf->sample_spec)) goto invalid_spec; pa_threaded_mainloop_lock (mainloop); /* we need a context and a no stream */ g_assert (pbuf->context); g_assert (!pbuf->stream); /* enable event notifications */ GST_LOG_OBJECT (psink, "subscribing to context events"); if (!(o = pa_context_subscribe (pbuf->context, PA_SUBSCRIPTION_MASK_SINK_INPUT, NULL, NULL))) goto subscribe_failed; pa_operation_unref (o); /* initialize the channel map */ gst_pulse_gst_to_channel_map (&channel_map, spec); /* find a good name for the stream */ if (psink->stream_name) name = psink->stream_name; else name = "Playback Stream"; /* create a stream */ GST_LOG_OBJECT (psink, "creating stream with name %s", name); if (psink->proplist) { if (!(pbuf->stream = pa_stream_new_with_proplist (pbuf->context, name, &pbuf->sample_spec, &channel_map, psink->proplist))) goto stream_failed; } else if (!(pbuf->stream = pa_stream_new (pbuf->context, name, &pbuf->sample_spec, &channel_map))) goto stream_failed; /* install essential callbacks */ pa_stream_set_state_callback (pbuf->stream, gst_pulsering_stream_state_cb, pbuf); pa_stream_set_write_callback (pbuf->stream, gst_pulsering_stream_request_cb, pbuf); pa_stream_set_underflow_callback (pbuf->stream, gst_pulsering_stream_underflow_cb, pbuf); pa_stream_set_overflow_callback (pbuf->stream, gst_pulsering_stream_overflow_cb, pbuf); pa_stream_set_latency_update_callback (pbuf->stream, gst_pulsering_stream_latency_cb, pbuf); pa_stream_set_suspended_callback (pbuf->stream, gst_pulsering_stream_suspended_cb, pbuf); #ifdef HAVE_PULSE_0_9_11 pa_stream_set_started_callback (pbuf->stream, gst_pulsering_stream_started_cb, pbuf); #endif #ifdef HAVE_PULSE_0_9_15 pa_stream_set_event_callback (pbuf->stream, gst_pulsering_stream_event_cb, pbuf); #endif /* buffering requirements. When setting prebuf to 0, the stream will not pause * when we cause an underrun, which causes time to continue. */ memset (&wanted, 0, sizeof (wanted)); wanted.tlength = spec->segtotal * spec->segsize; wanted.maxlength = -1; wanted.prebuf = 0; wanted.minreq = spec->segsize; GST_INFO_OBJECT (psink, "tlength: %d", wanted.tlength); GST_INFO_OBJECT (psink, "maxlength: %d", wanted.maxlength); GST_INFO_OBJECT (psink, "prebuf: %d", wanted.prebuf); GST_INFO_OBJECT (psink, "minreq: %d", wanted.minreq); #ifdef HAVE_PULSE_0_9_20 /* configure volume when we changed it, else we leave the default */ if (psink->volume_set) { GST_LOG_OBJECT (psink, "have volume of %f", psink->volume); pv = &v; gst_pulse_cvolume_from_linear (pv, pbuf->sample_spec.channels, psink->volume); } else { pv = NULL; } #endif /* construct the flags */ flags = PA_STREAM_INTERPOLATE_TIMING | PA_STREAM_AUTO_TIMING_UPDATE | #ifdef HAVE_PULSE_0_9_11 PA_STREAM_ADJUST_LATENCY | #endif PA_STREAM_START_CORKED; #ifdef HAVE_PULSE_0_9_12 if (psink->mute_set && psink->mute) flags |= PA_STREAM_START_MUTED; #endif /* we always start corked (see flags above) */ pbuf->corked = TRUE; /* try to connect now */ GST_LOG_OBJECT (psink, "connect for playback to device %s", GST_STR_NULL (psink->device)); if (pa_stream_connect_playback (pbuf->stream, psink->device, &wanted, flags, pv, NULL) < 0) goto connect_failed; /* our clock will now start from 0 again */ clock = GST_AUDIO_CLOCK (GST_BASE_AUDIO_SINK (psink)->provided_clock); gst_audio_clock_reset (clock, 0); for (;;) { pa_stream_state_t state; state = pa_stream_get_state (pbuf->stream); GST_LOG_OBJECT (psink, "stream state is now %d", state); if (!PA_STREAM_IS_GOOD (state)) goto connect_failed; if (state == PA_STREAM_READY) break; /* Wait until the stream is ready */ pa_threaded_mainloop_wait (mainloop); } /* After we passed the volume off of to PA we never want to set it again, since it is PA's job to save/restore volumes. */ psink->volume_set = psink->mute_set = FALSE; GST_LOG_OBJECT (psink, "stream is acquired now"); /* get the actual buffering properties now */ actual = pa_stream_get_buffer_attr (pbuf->stream); GST_INFO_OBJECT (psink, "tlength: %d (wanted: %d)", actual->tlength, wanted.tlength); GST_INFO_OBJECT (psink, "maxlength: %d", actual->maxlength); GST_INFO_OBJECT (psink, "prebuf: %d", actual->prebuf); GST_INFO_OBJECT (psink, "minreq: %d (wanted %d)", actual->minreq, wanted.minreq); spec->segsize = actual->minreq; spec->segtotal = actual->tlength / spec->segsize; pa_threaded_mainloop_unlock (mainloop); return TRUE; /* ERRORS */ unlock_and_fail: { gst_pulsering_destroy_stream (pbuf); pa_threaded_mainloop_unlock (mainloop); return FALSE; } invalid_spec: { GST_ELEMENT_ERROR (psink, RESOURCE, SETTINGS, ("Invalid sample specification."), (NULL)); return FALSE; } subscribe_failed: { GST_ELEMENT_ERROR (psink, RESOURCE, FAILED, ("pa_context_subscribe() failed: %s", pa_strerror (pa_context_errno (pbuf->context))), (NULL)); goto unlock_and_fail; } stream_failed: { GST_ELEMENT_ERROR (psink, RESOURCE, FAILED, ("Failed to create stream: %s", pa_strerror (pa_context_errno (pbuf->context))), (NULL)); goto unlock_and_fail; } connect_failed: { GST_ELEMENT_ERROR (psink, RESOURCE, FAILED, ("Failed to connect stream: %s", pa_strerror (pa_context_errno (pbuf->context))), (NULL)); goto unlock_and_fail; } } /* free the stream that we acquired before */ static gboolean gst_pulseringbuffer_release (GstRingBuffer * buf) { GstPulseSink *psink; GstPulseRingBuffer *pbuf; psink = GST_PULSESINK_CAST (GST_OBJECT_PARENT (buf)); pbuf = GST_PULSERING_BUFFER_CAST (buf); pa_threaded_mainloop_lock (mainloop); gst_pulsering_destroy_stream (pbuf); pa_threaded_mainloop_unlock (mainloop); return TRUE; } static void gst_pulsering_success_cb (pa_stream * s, int success, void *userdata) { GstPulseRingBuffer *pbuf; GstPulseSink *psink; pbuf = GST_PULSERING_BUFFER_CAST (userdata); psink = GST_PULSESINK_CAST (GST_OBJECT_PARENT (pbuf)); pa_threaded_mainloop_signal (mainloop, 0); } /* update the corked state of a stream, must be called with the mainloop * lock */ static gboolean gst_pulsering_set_corked (GstPulseRingBuffer * pbuf, gboolean corked, gboolean wait) { pa_operation *o = NULL; GstPulseSink *psink; gboolean res = FALSE; psink = GST_PULSESINK_CAST (GST_OBJECT_PARENT (pbuf)); GST_DEBUG_OBJECT (psink, "setting corked state to %d", corked); if (pbuf->corked != corked) { if (!(o = pa_stream_cork (pbuf->stream, corked, gst_pulsering_success_cb, pbuf))) goto cork_failed; while (wait && pa_operation_get_state (o) == PA_OPERATION_RUNNING) { pa_threaded_mainloop_wait (mainloop); if (gst_pulsering_is_dead (psink, pbuf, TRUE)) goto server_dead; } pbuf->corked = corked; } else { GST_DEBUG_OBJECT (psink, "skipping, already in requested state"); } res = TRUE; cleanup: if (o) pa_operation_unref (o); return res; /* ERRORS */ server_dead: { GST_DEBUG_OBJECT (psink, "the server is dead"); goto cleanup; } cork_failed: { GST_ELEMENT_ERROR (psink, RESOURCE, FAILED, ("pa_stream_cork() failed: %s", pa_strerror (pa_context_errno (pbuf->context))), (NULL)); goto cleanup; } } static void gst_pulseringbuffer_clear (GstRingBuffer * buf) { GstPulseSink *psink; GstPulseRingBuffer *pbuf; pa_operation *o = NULL; pbuf = GST_PULSERING_BUFFER_CAST (buf); psink = GST_PULSESINK_CAST (GST_OBJECT_PARENT (pbuf)); pa_threaded_mainloop_lock (mainloop); GST_DEBUG_OBJECT (psink, "clearing"); if (pbuf->stream) { /* don't wait for the flush to complete */ if ((o = pa_stream_flush (pbuf->stream, NULL, pbuf))) pa_operation_unref (o); } pa_threaded_mainloop_unlock (mainloop); } static void mainloop_enter_defer_cb (pa_mainloop_api * api, void *userdata) { GstPulseSink *pulsesink = GST_PULSESINK (userdata); GstMessage *message; GValue val = { 0 }; g_value_init (&val, G_TYPE_POINTER); g_value_set_pointer (&val, g_thread_self ()); GST_DEBUG_OBJECT (pulsesink, "posting ENTER stream status"); message = gst_message_new_stream_status (GST_OBJECT (pulsesink), GST_STREAM_STATUS_TYPE_ENTER, GST_ELEMENT (pulsesink)); gst_message_set_stream_status_object (message, &val); gst_element_post_message (GST_ELEMENT (pulsesink), message); /* signal the waiter */ pulsesink->pa_defer_ran = TRUE; pa_threaded_mainloop_signal (mainloop, 0); } /* start/resume playback ASAP, we don't uncork here but in the commit method */ static gboolean gst_pulseringbuffer_start (GstRingBuffer * buf) { GstPulseSink *psink; GstPulseRingBuffer *pbuf; pbuf = GST_PULSERING_BUFFER_CAST (buf); psink = GST_PULSESINK_CAST (GST_OBJECT_PARENT (pbuf)); pa_threaded_mainloop_lock (mainloop); GST_DEBUG_OBJECT (psink, "scheduling stream status"); psink->pa_defer_ran = FALSE; pa_mainloop_api_once (pa_threaded_mainloop_get_api (mainloop), mainloop_enter_defer_cb, psink); GST_DEBUG_OBJECT (psink, "starting"); pbuf->paused = FALSE; pa_threaded_mainloop_unlock (mainloop); return TRUE; } /* pause/stop playback ASAP */ static gboolean gst_pulseringbuffer_pause (GstRingBuffer * buf) { GstPulseSink *psink; GstPulseRingBuffer *pbuf; gboolean res; pbuf = GST_PULSERING_BUFFER_CAST (buf); psink = GST_PULSESINK_CAST (GST_OBJECT_PARENT (pbuf)); pa_threaded_mainloop_lock (mainloop); GST_DEBUG_OBJECT (psink, "pausing and corking"); /* make sure the commit method stops writing */ pbuf->paused = TRUE; res = gst_pulsering_set_corked (pbuf, TRUE, TRUE); if (pbuf->in_commit) { /* we are waiting in a commit, signal */ GST_DEBUG_OBJECT (psink, "signal commit"); pa_threaded_mainloop_signal (mainloop, 0); } pa_threaded_mainloop_unlock (mainloop); return res; } static void mainloop_leave_defer_cb (pa_mainloop_api * api, void *userdata) { GstPulseSink *pulsesink = GST_PULSESINK (userdata); GstMessage *message; GValue val = { 0 }; g_value_init (&val, G_TYPE_POINTER); g_value_set_pointer (&val, g_thread_self ()); GST_DEBUG_OBJECT (pulsesink, "posting LEAVE stream status"); message = gst_message_new_stream_status (GST_OBJECT (pulsesink), GST_STREAM_STATUS_TYPE_LEAVE, GST_ELEMENT (pulsesink)); gst_message_set_stream_status_object (message, &val); gst_element_post_message (GST_ELEMENT (pulsesink), message); pulsesink->pa_defer_ran = TRUE; pa_threaded_mainloop_signal (mainloop, 0); gst_object_unref (pulsesink); } /* stop playback, we flush everything. */ static gboolean gst_pulseringbuffer_stop (GstRingBuffer * buf) { GstPulseSink *psink; GstPulseRingBuffer *pbuf; gboolean res = FALSE; pa_operation *o = NULL; pbuf = GST_PULSERING_BUFFER_CAST (buf); psink = GST_PULSESINK_CAST (GST_OBJECT_PARENT (pbuf)); pa_threaded_mainloop_lock (mainloop); pbuf->paused = TRUE; res = gst_pulsering_set_corked (pbuf, TRUE, TRUE); /* Inform anyone waiting in _commit() call that it shall wakeup */ if (pbuf->in_commit) { GST_DEBUG_OBJECT (psink, "signal commit thread"); pa_threaded_mainloop_signal (mainloop, 0); } if (strcmp (psink->pa_version, "0.9.12")) { /* then try to flush, it's not fatal when this fails */ GST_DEBUG_OBJECT (psink, "flushing"); if ((o = pa_stream_flush (pbuf->stream, gst_pulsering_success_cb, pbuf))) { while (pa_operation_get_state (o) == PA_OPERATION_RUNNING) { GST_DEBUG_OBJECT (psink, "wait for completion"); pa_threaded_mainloop_wait (mainloop); if (gst_pulsering_is_dead (psink, pbuf, TRUE)) goto server_dead; } GST_DEBUG_OBJECT (psink, "flush completed"); } } res = TRUE; cleanup: if (o) { pa_operation_cancel (o); pa_operation_unref (o); } GST_DEBUG_OBJECT (psink, "scheduling stream status"); psink->pa_defer_ran = FALSE; gst_object_ref (psink); pa_mainloop_api_once (pa_threaded_mainloop_get_api (mainloop), mainloop_leave_defer_cb, psink); GST_DEBUG_OBJECT (psink, "waiting for stream status"); pa_threaded_mainloop_unlock (mainloop); return res; /* ERRORS */ server_dead: { GST_DEBUG_OBJECT (psink, "the server is dead"); goto cleanup; } } /* in_samples >= out_samples, rate > 1.0 */ #define FWD_UP_SAMPLES(s,se,d,de) \ G_STMT_START { \ guint8 *sb = s, *db = d; \ while (s <= se && d < de) { \ memcpy (d, s, bps); \ s += bps; \ *accum += outr; \ if ((*accum << 1) >= inr) { \ *accum -= inr; \ d += bps; \ } \ } \ in_samples -= (s - sb)/bps; \ out_samples -= (d - db)/bps; \ GST_DEBUG ("fwd_up end %d/%d",*accum,*toprocess); \ } G_STMT_END /* out_samples > in_samples, for rates smaller than 1.0 */ #define FWD_DOWN_SAMPLES(s,se,d,de) \ G_STMT_START { \ guint8 *sb = s, *db = d; \ while (s <= se && d < de) { \ memcpy (d, s, bps); \ d += bps; \ *accum += inr; \ if ((*accum << 1) >= outr) { \ *accum -= outr; \ s += bps; \ } \ } \ in_samples -= (s - sb)/bps; \ out_samples -= (d - db)/bps; \ GST_DEBUG ("fwd_down end %d/%d",*accum,*toprocess); \ } G_STMT_END #define REV_UP_SAMPLES(s,se,d,de) \ G_STMT_START { \ guint8 *sb = se, *db = d; \ while (s <= se && d < de) { \ memcpy (d, se, bps); \ se -= bps; \ *accum += outr; \ while (d < de && (*accum << 1) >= inr) { \ *accum -= inr; \ d += bps; \ } \ } \ in_samples -= (sb - se)/bps; \ out_samples -= (d - db)/bps; \ GST_DEBUG ("rev_up end %d/%d",*accum,*toprocess); \ } G_STMT_END #define REV_DOWN_SAMPLES(s,se,d,de) \ G_STMT_START { \ guint8 *sb = se, *db = d; \ while (s <= se && d < de) { \ memcpy (d, se, bps); \ d += bps; \ *accum += inr; \ while (s <= se && (*accum << 1) >= outr) { \ *accum -= outr; \ se -= bps; \ } \ } \ in_samples -= (sb - se)/bps; \ out_samples -= (d - db)/bps; \ GST_DEBUG ("rev_down end %d/%d",*accum,*toprocess); \ } G_STMT_END /* our custom commit function because we write into the buffer of pulseaudio * instead of keeping our own buffer */ static guint gst_pulseringbuffer_commit (GstRingBuffer * buf, guint64 * sample, guchar * data, gint in_samples, gint out_samples, gint * accum) { GstPulseSink *psink; GstPulseRingBuffer *pbuf; guint result; guint8 *data_end; gboolean reverse; gint *toprocess; gint inr, outr, bps; gint64 offset; guint bufsize; pbuf = GST_PULSERING_BUFFER_CAST (buf); psink = GST_PULSESINK_CAST (GST_OBJECT_PARENT (pbuf)); /* FIXME post message rather than using a signal (as mixer interface) */ if (g_atomic_int_compare_and_exchange (&psink->notify, 1, 0)) { g_object_notify (G_OBJECT (psink), "volume"); g_object_notify (G_OBJECT (psink), "mute"); } /* make sure the ringbuffer is started */ if (G_UNLIKELY (g_atomic_int_get (&buf->state) != GST_RING_BUFFER_STATE_STARTED)) { /* see if we are allowed to start it */ if (G_UNLIKELY (g_atomic_int_get (&buf->abidata.ABI.may_start) == FALSE)) goto no_start; GST_DEBUG_OBJECT (buf, "start!"); if (!gst_ring_buffer_start (buf)) goto start_failed; } pa_threaded_mainloop_lock (mainloop); GST_DEBUG_OBJECT (psink, "entering commit"); pbuf->in_commit = TRUE; bps = buf->spec.bytes_per_sample; bufsize = buf->spec.segsize * buf->spec.segtotal; /* our toy resampler for trick modes */ reverse = out_samples < 0; out_samples = ABS (out_samples); if (in_samples >= out_samples) toprocess = &in_samples; else toprocess = &out_samples; inr = in_samples - 1; outr = out_samples - 1; GST_DEBUG_OBJECT (psink, "in %d, out %d", inr, outr); /* data_end points to the last sample we have to write, not past it. This is * needed to properly handle reverse playback: it points to the last sample. */ data_end = data + (bps * inr); if (pbuf->paused) goto was_paused; /* offset is in bytes */ offset = *sample * bps; while (*toprocess > 0) { size_t avail; guint towrite; GST_LOG_OBJECT (psink, "need to write %d samples at offset %" G_GINT64_FORMAT, *toprocess, offset); #ifdef HAVE_PULSE_0_9_16 if (offset != pbuf->m_lastoffset) GST_LOG_OBJECT (psink, "discontinuity, offset is %" G_GINT64_FORMAT ", " "last offset was %" G_GINT64_FORMAT, offset, pbuf->m_lastoffset); towrite = out_samples * bps; /* Only ever write bufsize bytes at once. This will * also limit the PA shm buffer to bufsize */ if (towrite > bufsize) towrite = bufsize; if ((pbuf->m_writable < towrite) || (offset != pbuf->m_lastoffset)) { /* if no room left or discontinuity in offset, we need to flush data and get a new buffer */ /* flush the buffer if possible */ if ((pbuf->m_data != NULL) && (pbuf->m_towrite > 0)) { GST_LOG_OBJECT (psink, "flushing %u samples at offset %" G_GINT64_FORMAT, (guint) pbuf->m_towrite / bps, pbuf->m_offset); if (pa_stream_write (pbuf->stream, (uint8_t *) pbuf->m_data, pbuf->m_towrite, NULL, pbuf->m_offset, PA_SEEK_ABSOLUTE) < 0) { goto write_failed; } } pbuf->m_towrite = 0; pbuf->m_offset = offset; /* keep track of current offset */ /* get a buffer to write in for now on */ for (;;) { pbuf->m_writable = pa_stream_writable_size (pbuf->stream); if (pbuf->m_writable == (size_t) - 1) goto writable_size_failed; pbuf->m_writable /= bps; pbuf->m_writable *= bps; /* handle only complete samples */ if (pbuf->m_writable >= towrite) break; /* see if we need to uncork because we have no free space */ if (pbuf->corked) { if (!gst_pulsering_set_corked (pbuf, FALSE, FALSE)) goto uncork_failed; } /* we can't write a single byte, wait a bit */ GST_LOG_OBJECT (psink, "waiting for free space"); pa_threaded_mainloop_wait (mainloop); if (pbuf->paused) goto was_paused; } /* make sure we only buffer up latency-time samples */ if (pbuf->m_writable > bufsize) { /* limit buffering to latency-time value */ pbuf->m_writable = bufsize; GST_LOG_OBJECT (psink, "Limiting buffering to %" G_GSIZE_FORMAT, pbuf->m_writable); } GST_LOG_OBJECT (psink, "requesting %" G_GSIZE_FORMAT " bytes of " "shared memory", pbuf->m_writable); if (pa_stream_begin_write (pbuf->stream, &pbuf->m_data, &pbuf->m_writable) < 0) { GST_LOG_OBJECT (psink, "pa_stream_begin_write() failed"); goto writable_size_failed; } GST_LOG_OBJECT (psink, "got %" G_GSIZE_FORMAT " bytes of shared memory", pbuf->m_writable); /* Just to make sure that we didn't get more than requested */ if (pbuf->m_writable > bufsize) { /* limit buffering to latency-time value */ pbuf->m_writable = bufsize; } } if (pbuf->m_writable < towrite) towrite = pbuf->m_writable; avail = towrite / bps; GST_LOG_OBJECT (psink, "writing %u samples at offset %" G_GUINT64_FORMAT, (guint) avail, offset); if (G_LIKELY (inr == outr && !reverse)) { /* no rate conversion, simply write out the samples */ /* copy the data into internal buffer */ memcpy ((guint8 *) pbuf->m_data + pbuf->m_towrite, data, towrite); pbuf->m_towrite += towrite; pbuf->m_writable -= towrite; data += towrite; in_samples -= avail; out_samples -= avail; } else { guint8 *dest, *d, *d_end; /* write into the PulseAudio shm buffer */ dest = d = (guint8 *) pbuf->m_data + pbuf->m_towrite; d_end = d + towrite; if (!reverse) { if (inr >= outr) /* forward speed up */ FWD_UP_SAMPLES (data, data_end, d, d_end); else /* forward slow down */ FWD_DOWN_SAMPLES (data, data_end, d, d_end); } else { if (inr >= outr) /* reverse speed up */ REV_UP_SAMPLES (data, data_end, d, d_end); else /* reverse slow down */ REV_DOWN_SAMPLES (data, data_end, d, d_end); } /* see what we have left to write */ towrite = (d - dest); pbuf->m_towrite += towrite; pbuf->m_writable -= towrite; avail = towrite / bps; } /* flush the buffer if it's full */ if ((pbuf->m_data != NULL) && (pbuf->m_towrite > 0) && (pbuf->m_writable == 0)) { GST_LOG_OBJECT (psink, "flushing %u samples at offset %" G_GINT64_FORMAT, (guint) pbuf->m_towrite / bps, pbuf->m_offset); if (pa_stream_write (pbuf->stream, (uint8_t *) pbuf->m_data, pbuf->m_towrite, NULL, pbuf->m_offset, PA_SEEK_ABSOLUTE) < 0) { goto write_failed; } pbuf->m_towrite = 0; pbuf->m_offset = offset + towrite; /* keep track of current offset */ } #else for (;;) { /* FIXME, this is not quite right */ if ((avail = pa_stream_writable_size (pbuf->stream)) == (size_t) - 1) goto writable_size_failed; /* We always try to satisfy a request for data */ GST_LOG_OBJECT (psink, "writable bytes %" G_GSIZE_FORMAT, avail); /* convert to samples, we can only deal with multiples of the * sample size */ avail /= bps; if (avail > 0) break; /* see if we need to uncork because we have no free space */ if (pbuf->corked) { if (!gst_pulsering_set_corked (pbuf, FALSE, FALSE)) goto uncork_failed; } /* we can't write a single byte, wait a bit */ GST_LOG_OBJECT (psink, "waiting for free space"); pa_threaded_mainloop_wait (mainloop); if (pbuf->paused) goto was_paused; } if (avail > out_samples) avail = out_samples; towrite = avail * bps; GST_LOG_OBJECT (psink, "writing %u samples at offset %" G_GUINT64_FORMAT, (guint) avail, offset); if (G_LIKELY (inr == outr && !reverse)) { /* no rate conversion, simply write out the samples */ if (pa_stream_write (pbuf->stream, data, towrite, NULL, offset, PA_SEEK_ABSOLUTE) < 0) goto write_failed; data += towrite; in_samples -= avail; out_samples -= avail; } else { guint8 *dest, *d, *d_end; /* we need to allocate a temporary buffer to resample the data into, * FIXME, we should have a pulseaudio API to allocate this buffer for us * from the shared memory. */ dest = d = g_malloc (towrite); d_end = d + towrite; if (!reverse) { if (inr >= outr) /* forward speed up */ FWD_UP_SAMPLES (data, data_end, d, d_end); else /* forward slow down */ FWD_DOWN_SAMPLES (data, data_end, d, d_end); } else { if (inr >= outr) /* reverse speed up */ REV_UP_SAMPLES (data, data_end, d, d_end); else /* reverse slow down */ REV_DOWN_SAMPLES (data, data_end, d, d_end); } /* see what we have left to write */ towrite = (d - dest); if (pa_stream_write (pbuf->stream, dest, towrite, g_free, offset, PA_SEEK_ABSOLUTE) < 0) goto write_failed; avail = towrite / bps; } #endif /* HAVE_PULSE_0_9_16 */ *sample += avail; offset += avail * bps; #ifdef HAVE_PULSE_0_9_16 pbuf->m_lastoffset = offset; #endif /* check if we need to uncork after writing the samples */ if (pbuf->corked) { const pa_timing_info *info; if ((info = pa_stream_get_timing_info (pbuf->stream))) { GST_LOG_OBJECT (psink, "read_index at %" G_GUINT64_FORMAT ", offset %" G_GINT64_FORMAT, info->read_index, offset); /* we uncork when the read_index is too far behind the offset we need * to write to. */ if (info->read_index + bufsize <= offset) { if (!gst_pulsering_set_corked (pbuf, FALSE, FALSE)) goto uncork_failed; } } else { GST_LOG_OBJECT (psink, "no timing info available yet"); } } } /* we consumed all samples here */ data = data_end + bps; pbuf->in_commit = FALSE; pa_threaded_mainloop_unlock (mainloop); done: result = inr - ((data_end - data) / bps); GST_LOG_OBJECT (psink, "wrote %d samples", result); return result; /* ERRORS */ unlock_and_fail: { pbuf->in_commit = FALSE; GST_LOG_OBJECT (psink, "we are reset"); pa_threaded_mainloop_unlock (mainloop); goto done; } no_start: { GST_LOG_OBJECT (psink, "we can not start"); return 0; } start_failed: { GST_LOG_OBJECT (psink, "failed to start the ringbuffer"); return 0; } uncork_failed: { pbuf->in_commit = FALSE; GST_ERROR_OBJECT (psink, "uncork failed"); pa_threaded_mainloop_unlock (mainloop); goto done; } was_paused: { pbuf->in_commit = FALSE; GST_LOG_OBJECT (psink, "we are paused"); pa_threaded_mainloop_unlock (mainloop); goto done; } writable_size_failed: { GST_ELEMENT_ERROR (psink, RESOURCE, FAILED, ("pa_stream_writable_size() failed: %s", pa_strerror (pa_context_errno (pbuf->context))), (NULL)); goto unlock_and_fail; } write_failed: { GST_ELEMENT_ERROR (psink, RESOURCE, FAILED, ("pa_stream_write() failed: %s", pa_strerror (pa_context_errno (pbuf->context))), (NULL)); goto unlock_and_fail; } } /* write pending local samples, must be called with the mainloop lock */ static void gst_pulsering_flush (GstPulseRingBuffer * pbuf) { #ifdef HAVE_PULSE_0_9_16 GstPulseSink *psink; psink = GST_PULSESINK_CAST (GST_OBJECT_PARENT (pbuf)); GST_DEBUG_OBJECT (psink, "entering flush"); /* flush the buffer if possible */ if (pbuf->stream && (pbuf->m_data != NULL) && (pbuf->m_towrite > 0)) { #ifndef GST_DISABLE_GST_DEBUG gint bps; bps = (GST_RING_BUFFER_CAST (pbuf))->spec.bytes_per_sample; GST_LOG_OBJECT (psink, "flushing %u samples at offset %" G_GINT64_FORMAT, (guint) pbuf->m_towrite / bps, pbuf->m_offset); #endif if (pa_stream_write (pbuf->stream, (uint8_t *) pbuf->m_data, pbuf->m_towrite, NULL, pbuf->m_offset, PA_SEEK_ABSOLUTE) < 0) { goto write_failed; } pbuf->m_towrite = 0; pbuf->m_offset += pbuf->m_towrite; /* keep track of current offset */ } done: return; /* ERRORS */ write_failed: { GST_ELEMENT_ERROR (psink, RESOURCE, FAILED, ("pa_stream_write() failed: %s", pa_strerror (pa_context_errno (pbuf->context))), (NULL)); goto done; } #endif } static void gst_pulsesink_set_property (GObject * object, guint prop_id, const GValue * value, GParamSpec * pspec); static void gst_pulsesink_get_property (GObject * object, guint prop_id, GValue * value, GParamSpec * pspec); static void gst_pulsesink_finalize (GObject * object); static gboolean gst_pulsesink_event (GstBaseSink * sink, GstEvent * event); static GstStateChangeReturn gst_pulsesink_change_state (GstElement * element, GstStateChange transition); static void gst_pulsesink_init_interfaces (GType type); #if (G_BYTE_ORDER == G_LITTLE_ENDIAN) # define ENDIANNESS "LITTLE_ENDIAN, BIG_ENDIAN" #else # define ENDIANNESS "BIG_ENDIAN, LITTLE_ENDIAN" #endif GST_IMPLEMENT_PULSEPROBE_METHODS (GstPulseSink, gst_pulsesink); #define _do_init(type) \ gst_pulsesink_init_contexts (); \ gst_pulsesink_init_interfaces (type); GST_BOILERPLATE_FULL (GstPulseSink, gst_pulsesink, GstBaseAudioSink, GST_TYPE_BASE_AUDIO_SINK, _do_init); static gboolean gst_pulsesink_interface_supported (GstImplementsInterface * iface, GType interface_type) { GstPulseSink *this = GST_PULSESINK_CAST (iface); if (interface_type == GST_TYPE_PROPERTY_PROBE && this->probe) return TRUE; if (interface_type == GST_TYPE_STREAM_VOLUME) return TRUE; return FALSE; } static void gst_pulsesink_implements_interface_init (GstImplementsInterfaceClass * klass) { klass->supported = gst_pulsesink_interface_supported; } static void gst_pulsesink_init_interfaces (GType type) { static const GInterfaceInfo implements_iface_info = { (GInterfaceInitFunc) gst_pulsesink_implements_interface_init, NULL, NULL, }; static const GInterfaceInfo probe_iface_info = { (GInterfaceInitFunc) gst_pulsesink_property_probe_interface_init, NULL, NULL, }; #ifdef HAVE_PULSE_0_9_12 static const GInterfaceInfo svol_iface_info = { NULL, NULL, NULL }; g_type_add_interface_static (type, GST_TYPE_STREAM_VOLUME, &svol_iface_info); #endif g_type_add_interface_static (type, GST_TYPE_IMPLEMENTS_INTERFACE, &implements_iface_info); g_type_add_interface_static (type, GST_TYPE_PROPERTY_PROBE, &probe_iface_info); } static void gst_pulsesink_base_init (gpointer g_class) { static GstStaticPadTemplate pad_template = GST_STATIC_PAD_TEMPLATE ("sink", GST_PAD_SINK, GST_PAD_ALWAYS, GST_STATIC_CAPS ("audio/x-raw-int, " "endianness = (int) { " ENDIANNESS " }, " "signed = (boolean) TRUE, " "width = (int) 16, " "depth = (int) 16, " "rate = (int) [ 1, MAX ], " "channels = (int) [ 1, 32 ];" "audio/x-raw-float, " "endianness = (int) { " ENDIANNESS " }, " "width = (int) 32, " "rate = (int) [ 1, MAX ], " "channels = (int) [ 1, 32 ];" "audio/x-raw-int, " "endianness = (int) { " ENDIANNESS " }, " "signed = (boolean) TRUE, " "width = (int) 32, " "depth = (int) 32, " "rate = (int) [ 1, MAX ], " "channels = (int) [ 1, 32 ];" #ifdef HAVE_PULSE_0_9_15 "audio/x-raw-int, " "endianness = (int) { " ENDIANNESS " }, " "signed = (boolean) TRUE, " "width = (int) 24, " "depth = (int) 24, " "rate = (int) [ 1, MAX ], " "channels = (int) [ 1, 32 ];" "audio/x-raw-int, " "endianness = (int) { " ENDIANNESS " }, " "signed = (boolean) TRUE, " "width = (int) 32, " "depth = (int) 24, " "rate = (int) [ 1, MAX ], " "channels = (int) [ 1, 32 ];" #endif "audio/x-raw-int, " "signed = (boolean) FALSE, " "width = (int) 8, " "depth = (int) 8, " "rate = (int) [ 1, MAX ], " "channels = (int) [ 1, 32 ];" "audio/x-alaw, " "rate = (int) [ 1, MAX], " "channels = (int) [ 1, 32 ];" "audio/x-mulaw, " "rate = (int) [ 1, MAX], " "channels = (int) [ 1, 32 ]") ); GstElementClass *element_class = GST_ELEMENT_CLASS (g_class); gst_element_class_set_details_simple (element_class, "PulseAudio Audio Sink", "Sink/Audio", "Plays audio to a PulseAudio server", "Lennart Poettering"); gst_element_class_add_pad_template (element_class, gst_static_pad_template_get (&pad_template)); } static GstRingBuffer * gst_pulsesink_create_ringbuffer (GstBaseAudioSink * sink) { GstRingBuffer *buffer; GST_DEBUG_OBJECT (sink, "creating ringbuffer"); buffer = g_object_new (GST_TYPE_PULSERING_BUFFER, NULL); GST_DEBUG_OBJECT (sink, "created ringbuffer @%p", buffer); return buffer; } static void gst_pulsesink_class_init (GstPulseSinkClass * klass) { GObjectClass *gobject_class = G_OBJECT_CLASS (klass); GstBaseSinkClass *gstbasesink_class = GST_BASE_SINK_CLASS (klass); GstBaseSinkClass *bc; GstBaseAudioSinkClass *gstaudiosink_class = GST_BASE_AUDIO_SINK_CLASS (klass); GstElementClass *gstelement_class = GST_ELEMENT_CLASS (klass); gobject_class->finalize = gst_pulsesink_finalize; gobject_class->set_property = gst_pulsesink_set_property; gobject_class->get_property = gst_pulsesink_get_property; gstbasesink_class->event = GST_DEBUG_FUNCPTR (gst_pulsesink_event); /* restore the original basesink pull methods */ bc = g_type_class_peek (GST_TYPE_BASE_SINK); gstbasesink_class->activate_pull = GST_DEBUG_FUNCPTR (bc->activate_pull); gstelement_class->change_state = GST_DEBUG_FUNCPTR (gst_pulsesink_change_state); gstaudiosink_class->create_ringbuffer = GST_DEBUG_FUNCPTR (gst_pulsesink_create_ringbuffer); /* Overwrite GObject fields */ g_object_class_install_property (gobject_class, PROP_SERVER, g_param_spec_string ("server", "Server", "The PulseAudio server to connect to", DEFAULT_SERVER, G_PARAM_READWRITE | G_PARAM_STATIC_STRINGS)); g_object_class_install_property (gobject_class, PROP_DEVICE, g_param_spec_string ("device", "Device", "The PulseAudio sink device to connect to", DEFAULT_DEVICE, G_PARAM_READWRITE | G_PARAM_STATIC_STRINGS)); g_object_class_install_property (gobject_class, PROP_DEVICE_NAME, g_param_spec_string ("device-name", "Device name", "Human-readable name of the sound device", DEFAULT_DEVICE_NAME, G_PARAM_READABLE | G_PARAM_STATIC_STRINGS)); #ifdef HAVE_PULSE_0_9_12 g_object_class_install_property (gobject_class, PROP_VOLUME, g_param_spec_double ("volume", "Volume", "Linear volume of this stream, 1.0=100%", 0.0, MAX_VOLUME, DEFAULT_VOLUME, G_PARAM_READWRITE | G_PARAM_STATIC_STRINGS)); g_object_class_install_property (gobject_class, PROP_MUTE, g_param_spec_boolean ("mute", "Mute", "Mute state of this stream", DEFAULT_MUTE, G_PARAM_READWRITE | G_PARAM_STATIC_STRINGS)); #endif /** * GstPulseSink:client * * The PulseAudio client name to use. * * Since: 0.10.25 */ g_object_class_install_property (gobject_class, PROP_CLIENT, g_param_spec_string ("client", "Client", "The PulseAudio client name to use", gst_pulse_client_name (), G_PARAM_READWRITE | G_PARAM_STATIC_STRINGS | GST_PARAM_MUTABLE_READY)); /** * GstPulseSink:stream-properties * * List of pulseaudio stream properties. A list of defined properties can be * found in the pulseaudio api docs. * * Below is an example for registering as a music application to pulseaudio. * |[ * GstStructure *props; * * props = gst_structure_from_string ("props,media.role=music", NULL); * g_object_set (pulse, "stream-properties", props, NULL); * gst_structure_free * ]| * * Since: 0.10.26 */ g_object_class_install_property (gobject_class, PROP_STREAM_PROPERTIES, g_param_spec_boxed ("stream-properties", "stream properties", "list of pulseaudio stream properties", GST_TYPE_STRUCTURE, G_PARAM_READWRITE | G_PARAM_STATIC_STRINGS)); } /* returns the current time of the sink ringbuffer */ static GstClockTime gst_pulsesink_get_time (GstClock * clock, GstBaseAudioSink * sink) { GstPulseSink *psink; GstPulseRingBuffer *pbuf; pa_usec_t time; if (!sink->ringbuffer || !sink->ringbuffer->acquired) return GST_CLOCK_TIME_NONE; pbuf = GST_PULSERING_BUFFER_CAST (sink->ringbuffer); psink = GST_PULSESINK_CAST (GST_OBJECT_PARENT (pbuf)); pa_threaded_mainloop_lock (mainloop); if (gst_pulsering_is_dead (psink, pbuf, TRUE)) goto server_dead; /* if we don't have enough data to get a timestamp, just return NONE, which * will return the last reported time */ if (pa_stream_get_time (pbuf->stream, &time) < 0) { GST_DEBUG_OBJECT (psink, "could not get time"); time = GST_CLOCK_TIME_NONE; } else time *= 1000; pa_threaded_mainloop_unlock (mainloop); GST_LOG_OBJECT (psink, "current time is %" GST_TIME_FORMAT, GST_TIME_ARGS (time)); return time; /* ERRORS */ server_dead: { GST_DEBUG_OBJECT (psink, "the server is dead"); pa_threaded_mainloop_unlock (mainloop); return GST_CLOCK_TIME_NONE; } } static void gst_pulsesink_init (GstPulseSink * pulsesink, GstPulseSinkClass * klass) { pulsesink->server = NULL; pulsesink->device = NULL; pulsesink->device_description = NULL; pulsesink->client_name = gst_pulse_client_name (); pulsesink->volume = DEFAULT_VOLUME; pulsesink->volume_set = FALSE; pulsesink->mute = DEFAULT_MUTE; pulsesink->mute_set = FALSE; pulsesink->notify = 0; /* needed for conditional execution */ pulsesink->pa_version = pa_get_library_version (); pulsesink->properties = NULL; pulsesink->proplist = NULL; GST_DEBUG_OBJECT (pulsesink, "using pulseaudio version %s", pulsesink->pa_version); /* override with a custom clock */ if (GST_BASE_AUDIO_SINK (pulsesink)->provided_clock) gst_object_unref (GST_BASE_AUDIO_SINK (pulsesink)->provided_clock); GST_BASE_AUDIO_SINK (pulsesink)->provided_clock = gst_audio_clock_new ("GstPulseSinkClock", (GstAudioClockGetTimeFunc) gst_pulsesink_get_time, pulsesink); /* TRUE for sinks, FALSE for sources */ pulsesink->probe = gst_pulseprobe_new (G_OBJECT (pulsesink), G_OBJECT_GET_CLASS (pulsesink), PROP_DEVICE, pulsesink->device, TRUE, FALSE); } static void gst_pulsesink_finalize (GObject * object) { GstPulseSink *pulsesink = GST_PULSESINK_CAST (object); g_free (pulsesink->server); g_free (pulsesink->device); g_free (pulsesink->device_description); g_free (pulsesink->client_name); if (pulsesink->properties) gst_structure_free (pulsesink->properties); if (pulsesink->proplist) pa_proplist_free (pulsesink->proplist); if (pulsesink->probe) { gst_pulseprobe_free (pulsesink->probe); pulsesink->probe = NULL; } G_OBJECT_CLASS (parent_class)->finalize (object); } #ifdef HAVE_PULSE_0_9_12 static void gst_pulsesink_set_volume (GstPulseSink * psink, gdouble volume) { pa_cvolume v; pa_operation *o = NULL; GstPulseRingBuffer *pbuf; uint32_t idx; if (!mainloop) goto no_mainloop; pa_threaded_mainloop_lock (mainloop); GST_DEBUG_OBJECT (psink, "setting volume to %f", volume); pbuf = GST_PULSERING_BUFFER_CAST (GST_BASE_AUDIO_SINK (psink)->ringbuffer); if (pbuf == NULL || pbuf->stream == NULL) goto no_buffer; if ((idx = pa_stream_get_index (pbuf->stream)) == PA_INVALID_INDEX) goto no_index; gst_pulse_cvolume_from_linear (&v, pbuf->sample_spec.channels, volume); if (!(o = pa_context_set_sink_input_volume (pbuf->context, idx, &v, NULL, NULL))) goto volume_failed; /* We don't really care about the result of this call */ unlock: if (o) pa_operation_unref (o); pa_threaded_mainloop_unlock (mainloop); return; /* ERRORS */ no_mainloop: { psink->volume = volume; psink->volume_set = TRUE; GST_DEBUG_OBJECT (psink, "we have no mainloop"); return; } no_buffer: { psink->volume = volume; psink->volume_set = TRUE; GST_DEBUG_OBJECT (psink, "we have no ringbuffer"); goto unlock; } no_index: { GST_DEBUG_OBJECT (psink, "we don't have a stream index"); goto unlock; } volume_failed: { GST_ELEMENT_ERROR (psink, RESOURCE, FAILED, ("pa_stream_set_sink_input_volume() failed: %s", pa_strerror (pa_context_errno (pbuf->context))), (NULL)); goto unlock; } } static void gst_pulsesink_set_mute (GstPulseSink * psink, gboolean mute) { pa_operation *o = NULL; GstPulseRingBuffer *pbuf; uint32_t idx; if (!mainloop) goto no_mainloop; pa_threaded_mainloop_lock (mainloop); GST_DEBUG_OBJECT (psink, "setting mute state to %d", mute); pbuf = GST_PULSERING_BUFFER_CAST (GST_BASE_AUDIO_SINK (psink)->ringbuffer); if (pbuf == NULL || pbuf->stream == NULL) goto no_buffer; if ((idx = pa_stream_get_index (pbuf->stream)) == PA_INVALID_INDEX) goto no_index; if (!(o = pa_context_set_sink_input_mute (pbuf->context, idx, mute, NULL, NULL))) goto mute_failed; /* We don't really care about the result of this call */ unlock: if (o) pa_operation_unref (o); pa_threaded_mainloop_unlock (mainloop); return; /* ERRORS */ no_mainloop: { psink->mute = mute; psink->mute_set = TRUE; GST_DEBUG_OBJECT (psink, "we have no mainloop"); return; } no_buffer: { psink->mute = mute; psink->mute_set = TRUE; GST_DEBUG_OBJECT (psink, "we have no ringbuffer"); goto unlock; } no_index: { GST_DEBUG_OBJECT (psink, "we don't have a stream index"); goto unlock; } mute_failed: { GST_ELEMENT_ERROR (psink, RESOURCE, FAILED, ("pa_stream_set_sink_input_mute() failed: %s", pa_strerror (pa_context_errno (pbuf->context))), (NULL)); goto unlock; } } static void gst_pulsesink_sink_input_info_cb (pa_context * c, const pa_sink_input_info * i, int eol, void *userdata) { GstPulseRingBuffer *pbuf; GstPulseSink *psink; pbuf = GST_PULSERING_BUFFER_CAST (userdata); psink = GST_PULSESINK_CAST (GST_OBJECT_PARENT (pbuf)); if (!i) goto done; if (!pbuf->stream) goto done; /* If the index doesn't match our current stream, * it implies we just recreated the stream (caps change) */ if (i->index == pa_stream_get_index (pbuf->stream)) { psink->volume = pa_sw_volume_to_linear (pa_cvolume_max (&i->volume)); psink->mute = i->mute; } done: pa_threaded_mainloop_signal (mainloop, 0); } static gdouble gst_pulsesink_get_volume (GstPulseSink * psink) { GstPulseRingBuffer *pbuf; pa_operation *o = NULL; gdouble v = DEFAULT_VOLUME; uint32_t idx; if (!mainloop) goto no_mainloop; pa_threaded_mainloop_lock (mainloop); pbuf = GST_PULSERING_BUFFER_CAST (GST_BASE_AUDIO_SINK (psink)->ringbuffer); if (pbuf == NULL || pbuf->stream == NULL) goto no_buffer; if ((idx = pa_stream_get_index (pbuf->stream)) == PA_INVALID_INDEX) goto no_index; if (!(o = pa_context_get_sink_input_info (pbuf->context, idx, gst_pulsesink_sink_input_info_cb, pbuf))) goto info_failed; while (pa_operation_get_state (o) == PA_OPERATION_RUNNING) { pa_threaded_mainloop_wait (mainloop); if (gst_pulsering_is_dead (psink, pbuf, TRUE)) goto unlock; } unlock: v = psink->volume; if (o) pa_operation_unref (o); pa_threaded_mainloop_unlock (mainloop); if (v > MAX_VOLUME) { GST_WARNING_OBJECT (psink, "Clipped volume from %f to %f", v, MAX_VOLUME); v = MAX_VOLUME; } return v; /* ERRORS */ no_mainloop: { v = psink->volume; GST_DEBUG_OBJECT (psink, "we have no mainloop"); return v; } no_buffer: { GST_DEBUG_OBJECT (psink, "we have no ringbuffer"); goto unlock; } no_index: { GST_DEBUG_OBJECT (psink, "we don't have a stream index"); goto unlock; } info_failed: { GST_ELEMENT_ERROR (psink, RESOURCE, FAILED, ("pa_context_get_sink_input_info() failed: %s", pa_strerror (pa_context_errno (pbuf->context))), (NULL)); goto unlock; } } static gboolean gst_pulsesink_get_mute (GstPulseSink * psink) { GstPulseRingBuffer *pbuf; pa_operation *o = NULL; uint32_t idx; gboolean mute = FALSE; if (!mainloop) goto no_mainloop; pa_threaded_mainloop_lock (mainloop); mute = psink->mute; pbuf = GST_PULSERING_BUFFER_CAST (GST_BASE_AUDIO_SINK (psink)->ringbuffer); if (pbuf == NULL || pbuf->stream == NULL) goto no_buffer; if ((idx = pa_stream_get_index (pbuf->stream)) == PA_INVALID_INDEX) goto no_index; if (!(o = pa_context_get_sink_input_info (pbuf->context, idx, gst_pulsesink_sink_input_info_cb, pbuf))) goto info_failed; while (pa_operation_get_state (o) == PA_OPERATION_RUNNING) { pa_threaded_mainloop_wait (mainloop); if (gst_pulsering_is_dead (psink, pbuf, TRUE)) goto unlock; } unlock: if (o) pa_operation_unref (o); pa_threaded_mainloop_unlock (mainloop); return mute; /* ERRORS */ no_mainloop: { mute = psink->mute; GST_DEBUG_OBJECT (psink, "we have no mainloop"); return mute; } no_buffer: { GST_DEBUG_OBJECT (psink, "we have no ringbuffer"); goto unlock; } no_index: { GST_DEBUG_OBJECT (psink, "we don't have a stream index"); goto unlock; } info_failed: { GST_ELEMENT_ERROR (psink, RESOURCE, FAILED, ("pa_context_get_sink_input_info() failed: %s", pa_strerror (pa_context_errno (pbuf->context))), (NULL)); goto unlock; } } #endif static void gst_pulsesink_sink_info_cb (pa_context * c, const pa_sink_info * i, int eol, void *userdata) { GstPulseRingBuffer *pbuf; GstPulseSink *psink; pbuf = GST_PULSERING_BUFFER_CAST (userdata); psink = GST_PULSESINK_CAST (GST_OBJECT_PARENT (pbuf)); if (!i) goto done; g_free (psink->device_description); psink->device_description = g_strdup (i->description); done: pa_threaded_mainloop_signal (mainloop, 0); } static gchar * gst_pulsesink_device_description (GstPulseSink * psink) { GstPulseRingBuffer *pbuf; pa_operation *o = NULL; gchar *t; if (!mainloop) goto no_mainloop; pa_threaded_mainloop_lock (mainloop); pbuf = GST_PULSERING_BUFFER_CAST (GST_BASE_AUDIO_SINK (psink)->ringbuffer); if (pbuf == NULL) goto no_buffer; if (!(o = pa_context_get_sink_info_by_name (pbuf->context, psink->device, gst_pulsesink_sink_info_cb, pbuf))) goto info_failed; while (pa_operation_get_state (o) == PA_OPERATION_RUNNING) { pa_threaded_mainloop_wait (mainloop); if (gst_pulsering_is_dead (psink, pbuf, FALSE)) goto unlock; } unlock: if (o) pa_operation_unref (o); t = g_strdup (psink->device_description); pa_threaded_mainloop_unlock (mainloop); return t; /* ERRORS */ no_mainloop: { GST_DEBUG_OBJECT (psink, "we have no mainloop"); return NULL; } no_buffer: { GST_DEBUG_OBJECT (psink, "we have no ringbuffer"); goto unlock; } info_failed: { GST_ELEMENT_ERROR (psink, RESOURCE, FAILED, ("pa_context_get_sink_info_by_index() failed: %s", pa_strerror (pa_context_errno (pbuf->context))), (NULL)); goto unlock; } } static void gst_pulsesink_set_property (GObject * object, guint prop_id, const GValue * value, GParamSpec * pspec) { GstPulseSink *pulsesink = GST_PULSESINK_CAST (object); switch (prop_id) { case PROP_SERVER: g_free (pulsesink->server); pulsesink->server = g_value_dup_string (value); if (pulsesink->probe) gst_pulseprobe_set_server (pulsesink->probe, pulsesink->server); break; case PROP_DEVICE: g_free (pulsesink->device); pulsesink->device = g_value_dup_string (value); break; #ifdef HAVE_PULSE_0_9_12 case PROP_VOLUME: gst_pulsesink_set_volume (pulsesink, g_value_get_double (value)); break; case PROP_MUTE: gst_pulsesink_set_mute (pulsesink, g_value_get_boolean (value)); break; #endif case PROP_CLIENT: g_free (pulsesink->client_name); if (!g_value_get_string (value)) { GST_WARNING_OBJECT (pulsesink, "Empty PulseAudio client name not allowed. Resetting to default value"); pulsesink->client_name = gst_pulse_client_name (); } else pulsesink->client_name = g_value_dup_string (value); break; case PROP_STREAM_PROPERTIES: if (pulsesink->properties) gst_structure_free (pulsesink->properties); pulsesink->properties = gst_structure_copy (gst_value_get_structure (value)); if (pulsesink->proplist) pa_proplist_free (pulsesink->proplist); pulsesink->proplist = gst_pulse_make_proplist (pulsesink->properties); break; default: G_OBJECT_WARN_INVALID_PROPERTY_ID (object, prop_id, pspec); break; } } static void gst_pulsesink_get_property (GObject * object, guint prop_id, GValue * value, GParamSpec * pspec) { GstPulseSink *pulsesink = GST_PULSESINK_CAST (object); switch (prop_id) { case PROP_SERVER: g_value_set_string (value, pulsesink->server); break; case PROP_DEVICE: g_value_set_string (value, pulsesink->device); break; case PROP_DEVICE_NAME: g_value_take_string (value, gst_pulsesink_device_description (pulsesink)); break; #ifdef HAVE_PULSE_0_9_12 case PROP_VOLUME: g_value_set_double (value, gst_pulsesink_get_volume (pulsesink)); break; case PROP_MUTE: g_value_set_boolean (value, gst_pulsesink_get_mute (pulsesink)); break; #endif case PROP_CLIENT: g_value_set_string (value, pulsesink->client_name); break; case PROP_STREAM_PROPERTIES: gst_value_set_structure (value, pulsesink->properties); break; default: G_OBJECT_WARN_INVALID_PROPERTY_ID (object, prop_id, pspec); break; } } static void gst_pulsesink_change_title (GstPulseSink * psink, const gchar * t) { pa_operation *o = NULL; GstPulseRingBuffer *pbuf; pa_threaded_mainloop_lock (mainloop); pbuf = GST_PULSERING_BUFFER_CAST (GST_BASE_AUDIO_SINK (psink)->ringbuffer); if (pbuf == NULL || pbuf->stream == NULL) goto no_buffer; g_free (pbuf->stream_name); pbuf->stream_name = g_strdup (t); if (!(o = pa_stream_set_name (pbuf->stream, pbuf->stream_name, NULL, NULL))) goto name_failed; /* We're not interested if this operation failed or not */ unlock: if (o) pa_operation_unref (o); pa_threaded_mainloop_unlock (mainloop); return; /* ERRORS */ no_buffer: { GST_DEBUG_OBJECT (psink, "we have no ringbuffer"); goto unlock; } name_failed: { GST_ELEMENT_ERROR (psink, RESOURCE, FAILED, ("pa_stream_set_name() failed: %s", pa_strerror (pa_context_errno (pbuf->context))), (NULL)); goto unlock; } } #ifdef HAVE_PULSE_0_9_11 static void gst_pulsesink_change_props (GstPulseSink * psink, GstTagList * l) { static const gchar *const map[] = { GST_TAG_TITLE, PA_PROP_MEDIA_TITLE, /* might get overriden in the next iteration by GST_TAG_ARTIST */ GST_TAG_PERFORMER, PA_PROP_MEDIA_ARTIST, GST_TAG_ARTIST, PA_PROP_MEDIA_ARTIST, GST_TAG_LANGUAGE_CODE, PA_PROP_MEDIA_LANGUAGE, GST_TAG_LOCATION, PA_PROP_MEDIA_FILENAME, /* We might add more here later on ... */ NULL }; pa_proplist *pl = NULL; const gchar *const *t; gboolean empty = TRUE; pa_operation *o = NULL; GstPulseRingBuffer *pbuf; pl = pa_proplist_new (); for (t = map; *t; t += 2) { gchar *n = NULL; if (gst_tag_list_get_string (l, *t, &n)) { if (n && *n) { pa_proplist_sets (pl, *(t + 1), n); empty = FALSE; } g_free (n); } } if (empty) goto finish; pa_threaded_mainloop_lock (mainloop); pbuf = GST_PULSERING_BUFFER_CAST (GST_BASE_AUDIO_SINK (psink)->ringbuffer); if (pbuf == NULL || pbuf->stream == NULL) goto no_buffer; if (!(o = pa_stream_proplist_update (pbuf->stream, PA_UPDATE_REPLACE, pl, NULL, NULL))) goto update_failed; /* We're not interested if this operation failed or not */ unlock: if (o) pa_operation_unref (o); pa_threaded_mainloop_unlock (mainloop); finish: if (pl) pa_proplist_free (pl); return; /* ERRORS */ no_buffer: { GST_DEBUG_OBJECT (psink, "we have no ringbuffer"); goto unlock; } update_failed: { GST_ELEMENT_ERROR (psink, RESOURCE, FAILED, ("pa_stream_proplist_update() failed: %s", pa_strerror (pa_context_errno (pbuf->context))), (NULL)); goto unlock; } } #endif static void gst_pulsesink_flush_ringbuffer (GstPulseSink * psink) { GstPulseRingBuffer *pbuf; pa_threaded_mainloop_lock (mainloop); pbuf = GST_PULSERING_BUFFER_CAST (GST_BASE_AUDIO_SINK (psink)->ringbuffer); if (pbuf == NULL || pbuf->stream == NULL) goto no_buffer; gst_pulsering_flush (pbuf); /* Uncork if we haven't already (happens when waiting to get enough data * to send out the first time) */ if (pbuf->corked) gst_pulsering_set_corked (pbuf, FALSE, FALSE); /* We're not interested if this operation failed or not */ unlock: pa_threaded_mainloop_unlock (mainloop); return; /* ERRORS */ no_buffer: { GST_DEBUG_OBJECT (psink, "we have no ringbuffer"); goto unlock; } } static gboolean gst_pulsesink_event (GstBaseSink * sink, GstEvent * event) { GstPulseSink *pulsesink = GST_PULSESINK_CAST (sink); switch (GST_EVENT_TYPE (event)) { case GST_EVENT_TAG:{ gchar *title = NULL, *artist = NULL, *location = NULL, *description = NULL, *t = NULL, *buf = NULL; GstTagList *l; gst_event_parse_tag (event, &l); gst_tag_list_get_string (l, GST_TAG_TITLE, &title); gst_tag_list_get_string (l, GST_TAG_ARTIST, &artist); gst_tag_list_get_string (l, GST_TAG_LOCATION, &location); gst_tag_list_get_string (l, GST_TAG_DESCRIPTION, &description); if (!artist) gst_tag_list_get_string (l, GST_TAG_PERFORMER, &artist); if (title && artist) /* TRANSLATORS: 'song title' by 'artist name' */ t = buf = g_strdup_printf (_("'%s' by '%s'"), g_strstrip (title), g_strstrip (artist)); else if (title) t = g_strstrip (title); else if (description) t = g_strstrip (description); else if (location) t = g_strstrip (location); if (t) gst_pulsesink_change_title (pulsesink, t); g_free (title); g_free (artist); g_free (location); g_free (description); g_free (buf); #ifdef HAVE_PULSE_0_9_11 gst_pulsesink_change_props (pulsesink, l); #endif break; } case GST_EVENT_EOS: gst_pulsesink_flush_ringbuffer (pulsesink); break; default: ; } return GST_BASE_SINK_CLASS (parent_class)->event (sink, event); } static GstStateChangeReturn gst_pulsesink_change_state (GstElement * element, GstStateChange transition) { GstPulseSink *pulsesink = GST_PULSESINK (element); GstStateChangeReturn ret; guint res; switch (transition) { case GST_STATE_CHANGE_NULL_TO_READY: g_mutex_lock (pa_shared_ressource_mutex); if (!mainloop_ref_ct) { GST_INFO_OBJECT (element, "new pa main loop thread"); if (!(mainloop = pa_threaded_mainloop_new ())) goto mainloop_failed; mainloop_ref_ct = 1; res = pa_threaded_mainloop_start (mainloop); g_assert (res == 0); g_mutex_unlock (pa_shared_ressource_mutex); } else { GST_INFO_OBJECT (element, "reusing pa main loop thread"); mainloop_ref_ct++; g_mutex_unlock (pa_shared_ressource_mutex); } break; case GST_STATE_CHANGE_READY_TO_PAUSED: gst_element_post_message (element, gst_message_new_clock_provide (GST_OBJECT_CAST (element), GST_BASE_AUDIO_SINK (pulsesink)->provided_clock, TRUE)); break; default: break; } ret = GST_ELEMENT_CLASS (parent_class)->change_state (element, transition); if (ret == GST_STATE_CHANGE_FAILURE) goto state_failure; switch (transition) { case GST_STATE_CHANGE_PAUSED_TO_READY: gst_element_post_message (element, gst_message_new_clock_lost (GST_OBJECT_CAST (element), GST_BASE_AUDIO_SINK (pulsesink)->provided_clock)); break; case GST_STATE_CHANGE_READY_TO_NULL: if (mainloop) { g_mutex_lock (pa_shared_ressource_mutex); mainloop_ref_ct--; if (!mainloop_ref_ct) { GST_INFO_OBJECT (element, "terminating pa main loop thread"); pa_threaded_mainloop_stop (mainloop); pa_threaded_mainloop_free (mainloop); mainloop = NULL; } g_mutex_unlock (pa_shared_ressource_mutex); } break; default: break; } return ret; /* ERRORS */ mainloop_failed: { g_mutex_unlock (pa_shared_ressource_mutex); GST_ELEMENT_ERROR (pulsesink, RESOURCE, FAILED, ("pa_threaded_mainloop_new() failed"), (NULL)); return GST_STATE_CHANGE_FAILURE; } state_failure: { if (transition == GST_STATE_CHANGE_NULL_TO_READY) { /* Clear the PA mainloop if baseaudiosink failed to open the ring_buffer */ g_assert (mainloop); g_mutex_lock (pa_shared_ressource_mutex); mainloop_ref_ct--; if (!mainloop_ref_ct) { GST_INFO_OBJECT (element, "terminating pa main loop thread"); pa_threaded_mainloop_stop (mainloop); pa_threaded_mainloop_free (mainloop); mainloop = NULL; } g_mutex_unlock (pa_shared_ressource_mutex); } return ret; } }