static void aout_CheckRestart (audio_output_t *aout) { aout_owner_t *owner = aout_owner (aout); aout_assert_locked (aout); int restart = vlc_atomic_swap (&owner->restart, 0); if (likely(restart == 0)) return; assert (restart & AOUT_RESTART_INPUT); const aout_request_vout_t request_vout = owner->input->request_vout; if (likely(owner->input != NULL)) aout_InputDelete (aout, owner->input); owner->input = NULL; /* Reinitializes the output */ if (restart & AOUT_RESTART_OUTPUT) { aout_MixerDelete (owner->volume.mixer); owner->volume.mixer = NULL; aout_OutputDelete (aout); if (aout_OutputNew (aout, &owner->input_format)) return; /* we are officially screwed */ owner->volume.mixer = aout_MixerNew (aout, owner->mixer_format.i_format); } owner->input = aout_InputNew (aout, &owner->input_format, &owner->mixer_format, &request_vout); }
/***************************************************************************** * aout_InputCheckAndRestart : restart an input ***************************************************************************** * This function must be entered with the input and mixer lock. *****************************************************************************/ void aout_InputCheckAndRestart( aout_instance_t * p_aout, aout_input_t * p_input ) { AOUT_ASSERT_MIXER_LOCKED; AOUT_ASSERT_INPUT_LOCKED; if( !p_input->b_restart ) return; aout_lock_input_fifos( p_aout ); /* A little trick to avoid loosing our input fifo and properties */ uint8_t *p_first_byte_to_mix = p_input->mixer.begin; aout_fifo_t fifo = p_input->mixer.fifo; bool b_paused = p_input->b_paused; mtime_t i_pause_date = p_input->i_pause_date; aout_FifoInit( p_aout, &p_input->mixer.fifo, p_aout->mixer_format.i_rate ); aout_InputDelete( p_aout, p_input ); aout_InputNew( p_aout, p_input, &p_input->request_vout ); p_input->mixer.begin = p_first_byte_to_mix; p_input->mixer.fifo = fifo; p_input->b_paused = b_paused; p_input->i_pause_date = i_pause_date; p_input->b_restart = false; aout_unlock_input_fifos( p_aout ); }
/** * Stops all plugins involved in the audio output. */ void aout_Shutdown (audio_output_t *p_aout) { aout_owner_t *owner = aout_owner (p_aout); aout_input_t *input; struct audio_mixer *mixer; aout_lock( p_aout ); /* Remove the input. */ input = owner->input; if (likely(input != NULL)) aout_InputDelete (p_aout, input); owner->input = NULL; mixer = owner->volume.mixer; owner->volume.mixer = NULL; var_DelCallback (p_aout, "audio-replay-gain-mode", ReplayGainCallback, owner); aout_OutputDelete( p_aout ); var_Destroy( p_aout, "audio-device" ); var_Destroy( p_aout, "audio-channels" ); aout_unlock( p_aout ); aout_MixerDelete (mixer); free (input); }
/***************************************************************************** * aout_DecDelete : delete a decoder *****************************************************************************/ int aout_DecDelete( aout_instance_t * p_aout, aout_input_t * p_input ) { int i_input; /* This function can only be called by the decoder itself, so no need * to lock p_input->lock. */ vlc_mutex_lock( &p_aout->mixer_lock ); for ( i_input = 0; i_input < p_aout->i_nb_inputs; i_input++ ) { if ( p_aout->pp_inputs[i_input] == p_input ) { break; } } if ( i_input == p_aout->i_nb_inputs ) { msg_Err( p_aout, "cannot find an input to delete" ); return -1; } /* Remove the input from the list. */ memmove( &p_aout->pp_inputs[i_input], &p_aout->pp_inputs[i_input + 1], (AOUT_MAX_INPUTS - i_input - 1) * sizeof(aout_input_t *) ); p_aout->i_nb_inputs--; aout_InputDelete( p_aout, p_input ); vlc_mutex_destroy( &p_input->lock ); free( p_input ); if ( !p_aout->i_nb_inputs ) { aout_OutputDelete( p_aout ); aout_MixerDelete( p_aout ); if ( var_Type( p_aout, "audio-device" ) != 0 ) { var_Destroy( p_aout, "audio-device" ); } if ( var_Type( p_aout, "audio-channels" ) != 0 ) { var_Destroy( p_aout, "audio-channels" ); } } vlc_mutex_unlock( &p_aout->mixer_lock ); return 0; }
/***************************************************************************** * aout_DecNew : create a decoder *****************************************************************************/ static aout_input_t * DecNew( vlc_object_t * p_this, aout_instance_t * p_aout, audio_sample_format_t * p_format ) { aout_input_t * p_input; input_thread_t * p_input_thread; vlc_value_t val; /* We can only be called by the decoder, so no need to lock * p_input->lock. */ vlc_mutex_lock( &p_aout->mixer_lock ); if ( p_aout->i_nb_inputs >= AOUT_MAX_INPUTS ) { msg_Err( p_aout, "too many inputs already (%d)", p_aout->i_nb_inputs ); return NULL; } p_input = malloc(sizeof(aout_input_t)); if ( p_input == NULL ) { msg_Err( p_aout, "out of memory" ); return NULL; } vlc_mutex_init( p_aout, &p_input->lock ); p_input->b_changed = 0; p_input->b_error = 1; aout_FormatPrepare( p_format ); memcpy( &p_input->input, p_format, sizeof(audio_sample_format_t) ); p_aout->pp_inputs[p_aout->i_nb_inputs] = p_input; p_aout->i_nb_inputs++; if ( p_aout->mixer.b_error ) { int i; var_Destroy( p_aout, "audio-device" ); var_Destroy( p_aout, "audio-channels" ); /* Recreate the output using the new format. */ if ( aout_OutputNew( p_aout, p_format ) < 0 ) { for ( i = 0; i < p_aout->i_nb_inputs - 1; i++ ) { vlc_mutex_lock( &p_aout->pp_inputs[i]->lock ); aout_InputDelete( p_aout, p_aout->pp_inputs[i] ); vlc_mutex_unlock( &p_aout->pp_inputs[i]->lock ); } vlc_mutex_unlock( &p_aout->mixer_lock ); return p_input; } /* Create other input streams. */ for ( i = 0; i < p_aout->i_nb_inputs - 1; i++ ) { vlc_mutex_lock( &p_aout->pp_inputs[i]->lock ); aout_InputDelete( p_aout, p_aout->pp_inputs[i] ); aout_InputNew( p_aout, p_aout->pp_inputs[i] ); vlc_mutex_unlock( &p_aout->pp_inputs[i]->lock ); } } else { aout_MixerDelete( p_aout ); } if ( aout_MixerNew( p_aout ) == -1 ) { aout_OutputDelete( p_aout ); vlc_mutex_unlock( &p_aout->mixer_lock ); return NULL; } aout_InputNew( p_aout, p_input ); vlc_mutex_unlock( &p_aout->mixer_lock ); var_Create( p_this, "audio-desync", VLC_VAR_INTEGER | VLC_VAR_DOINHERIT ); var_Get( p_this, "audio-desync", &val ); p_input->i_desync = val.i_int * 1000; p_input_thread = (input_thread_t *)vlc_object_find( p_this, VLC_OBJECT_INPUT, FIND_PARENT ); if( p_input_thread ) { p_input->i_pts_delay = p_input_thread->i_pts_delay; p_input->i_pts_delay += p_input->i_desync; vlc_object_release( p_input_thread ); } else { p_input->i_pts_delay = DEFAULT_PTS_DELAY; p_input->i_pts_delay += p_input->i_desync; } return p_input; }
/***************************************************************************** * aout_Restart : re-open the output device and rebuild the input and output * pipelines ***************************************************************************** * This function is used whenever the parameters of the output plug-in are * changed (eg. selecting S/PDIF or PCM). *****************************************************************************/ static int aout_Restart( aout_instance_t * p_aout ) { int i; bool b_error = 0; aout_lock_mixer( p_aout ); if ( p_aout->i_nb_inputs == 0 ) { aout_unlock_mixer( p_aout ); msg_Err( p_aout, "no decoder thread" ); return -1; } /* Lock all inputs. */ aout_lock_input_fifos( p_aout ); for ( i = 0; i < p_aout->i_nb_inputs; i++ ) { aout_lock_input( p_aout, p_aout->pp_inputs[i] ); aout_InputDelete( p_aout, p_aout->pp_inputs[i] ); } aout_MixerDelete( p_aout ); /* Re-open the output plug-in. */ aout_OutputDelete( p_aout ); if ( aout_OutputNew( p_aout, &p_aout->pp_inputs[0]->input ) == -1 ) { /* Release all locks and report the error. */ for ( i = 0; i < p_aout->i_nb_inputs; i++ ) { vlc_mutex_unlock( &p_aout->pp_inputs[i]->lock ); } aout_unlock_input_fifos( p_aout ); aout_unlock_mixer( p_aout ); return -1; } if ( aout_MixerNew( p_aout ) == -1 ) { aout_OutputDelete( p_aout ); for ( i = 0; i < p_aout->i_nb_inputs; i++ ) { vlc_mutex_unlock( &p_aout->pp_inputs[i]->lock ); } aout_unlock_input_fifos( p_aout ); aout_unlock_mixer( p_aout ); return -1; } /* Re-open all inputs. */ for ( i = 0; i < p_aout->i_nb_inputs; i++ ) { aout_input_t * p_input = p_aout->pp_inputs[i]; b_error |= aout_InputNew( p_aout, p_input ); p_input->b_changed = 1; aout_unlock_input( p_aout, p_input ); } aout_unlock_input_fifos( p_aout ); aout_unlock_mixer( p_aout ); return b_error; }
/***************************************************************************** * aout_InputPlay : play a buffer ***************************************************************************** * This function must be entered with the input lock. *****************************************************************************/ int aout_InputPlay( aout_instance_t * p_aout, aout_input_t * p_input, aout_buffer_t * p_buffer ) { mtime_t start_date; if( p_input->b_restart ) { aout_fifo_t fifo, dummy_fifo; byte_t *p_first_byte_to_mix; vlc_mutex_lock( &p_aout->mixer_lock ); /* A little trick to avoid loosing our input fifo */ aout_FifoInit( p_aout, &dummy_fifo, p_aout->mixer.mixer.i_rate ); p_first_byte_to_mix = p_input->p_first_byte_to_mix; fifo = p_input->fifo; p_input->fifo = dummy_fifo; aout_InputDelete( p_aout, p_input ); aout_InputNew( p_aout, p_input ); p_input->p_first_byte_to_mix = p_first_byte_to_mix; p_input->fifo = fifo; vlc_mutex_unlock( &p_aout->mixer_lock ); } /* We don't care if someone changes the start date behind our back after * this. We'll deal with that when pushing the buffer, and compensate * with the next incoming buffer. */ vlc_mutex_lock( &p_aout->input_fifos_lock ); start_date = aout_FifoNextStart( p_aout, &p_input->fifo ); vlc_mutex_unlock( &p_aout->input_fifos_lock ); if ( start_date != 0 && start_date < mdate() ) { /* The decoder is _very_ late. This can only happen if the user * pauses the stream (or if the decoder is buggy, which cannot * happen :). */ msg_Warn( p_aout, "computed PTS is out of range ("I64Fd"), " "clearing out", mdate() - start_date ); vlc_mutex_lock( &p_aout->input_fifos_lock ); aout_FifoSet( p_aout, &p_input->fifo, 0 ); p_input->p_first_byte_to_mix = NULL; vlc_mutex_unlock( &p_aout->input_fifos_lock ); if ( p_input->i_resampling_type != AOUT_RESAMPLING_NONE ) msg_Warn( p_aout, "timing screwed, stopping resampling" ); p_input->i_resampling_type = AOUT_RESAMPLING_NONE; if ( p_input->i_nb_resamplers != 0 ) { p_input->pp_resamplers[0]->input.i_rate = p_input->input.i_rate; p_input->pp_resamplers[0]->b_continuity = VLC_FALSE; } start_date = 0; if( p_input->p_input_thread ) { stats_UpdateInteger( p_input->p_input_thread, STATS_LOST_ABUFFERS, 1, NULL ); } } if ( p_buffer->start_date < mdate() + AOUT_MIN_PREPARE_TIME ) { /* The decoder gives us f*cked up PTS. It's its business, but we * can't present it anyway, so drop the buffer. */ msg_Warn( p_aout, "PTS is out of range ("I64Fd"), dropping buffer", mdate() - p_buffer->start_date ); if( p_input->p_input_thread ) { stats_UpdateInteger( p_input->p_input_thread, STATS_LOST_ABUFFERS, 1, NULL ); } aout_BufferFree( p_buffer ); p_input->i_resampling_type = AOUT_RESAMPLING_NONE; if ( p_input->i_nb_resamplers != 0 ) { p_input->pp_resamplers[0]->input.i_rate = p_input->input.i_rate; p_input->pp_resamplers[0]->b_continuity = VLC_FALSE; } return 0; } /* If the audio drift is too big then it's not worth trying to resample * the audio. */ if ( start_date != 0 && ( start_date < p_buffer->start_date - 3 * AOUT_PTS_TOLERANCE ) ) { msg_Warn( p_aout, "audio drift is too big ("I64Fd"), clearing out", start_date - p_buffer->start_date ); vlc_mutex_lock( &p_aout->input_fifos_lock ); aout_FifoSet( p_aout, &p_input->fifo, 0 ); p_input->p_first_byte_to_mix = NULL; vlc_mutex_unlock( &p_aout->input_fifos_lock ); if ( p_input->i_resampling_type != AOUT_RESAMPLING_NONE ) msg_Warn( p_aout, "timing screwed, stopping resampling" ); p_input->i_resampling_type = AOUT_RESAMPLING_NONE; if ( p_input->i_nb_resamplers != 0 ) { p_input->pp_resamplers[0]->input.i_rate = p_input->input.i_rate; p_input->pp_resamplers[0]->b_continuity = VLC_FALSE; } start_date = 0; } else if ( start_date != 0 && ( start_date > p_buffer->start_date + 3 * AOUT_PTS_TOLERANCE ) ) { msg_Warn( p_aout, "audio drift is too big ("I64Fd"), dropping buffer", start_date - p_buffer->start_date ); aout_BufferFree( p_buffer ); if( p_input->p_input_thread ) { stats_UpdateInteger( p_input->p_input_thread, STATS_LOST_ABUFFERS, 1, NULL ); } return 0; } if ( start_date == 0 ) start_date = p_buffer->start_date; /* Run pre-filters. */ aout_FiltersPlay( p_aout, p_input->pp_filters, p_input->i_nb_filters, &p_buffer ); /* Run the resampler if needed. * We first need to calculate the output rate of this resampler. */ if ( ( p_input->i_resampling_type == AOUT_RESAMPLING_NONE ) && ( start_date < p_buffer->start_date - AOUT_PTS_TOLERANCE || start_date > p_buffer->start_date + AOUT_PTS_TOLERANCE ) && p_input->i_nb_resamplers > 0 ) { /* Can happen in several circumstances : * 1. A problem at the input (clock drift) * 2. A small pause triggered by the user * 3. Some delay in the output stage, causing a loss of lip * synchronization * Solution : resample the buffer to avoid a scratch. */ mtime_t drift = p_buffer->start_date - start_date; p_input->i_resamp_start_date = mdate(); p_input->i_resamp_start_drift = (int)drift; if ( drift > 0 ) p_input->i_resampling_type = AOUT_RESAMPLING_DOWN; else p_input->i_resampling_type = AOUT_RESAMPLING_UP; msg_Warn( p_aout, "buffer is "I64Fd" %s, triggering %ssampling", drift > 0 ? drift : -drift, drift > 0 ? "in advance" : "late", drift > 0 ? "down" : "up"); } if ( p_input->i_resampling_type != AOUT_RESAMPLING_NONE ) { /* Resampling has been triggered previously (because of dates * mismatch). We want the resampling to happen progressively so * it isn't too audible to the listener. */ if( p_input->i_resampling_type == AOUT_RESAMPLING_UP ) { p_input->pp_resamplers[0]->input.i_rate += 2; /* Hz */ } else { p_input->pp_resamplers[0]->input.i_rate -= 2; /* Hz */ } /* Check if everything is back to normal, in which case we can stop the * resampling */ if( p_input->pp_resamplers[0]->input.i_rate == p_input->input.i_rate ) { p_input->i_resampling_type = AOUT_RESAMPLING_NONE; msg_Warn( p_aout, "resampling stopped after "I64Fi" usec " "(drift: "I64Fi")", mdate() - p_input->i_resamp_start_date, p_buffer->start_date - start_date); } else if( abs( (int)(p_buffer->start_date - start_date) ) < abs( p_input->i_resamp_start_drift ) / 2 ) { /* if we reduced the drift from half, then it is time to switch * back the resampling direction. */ if( p_input->i_resampling_type == AOUT_RESAMPLING_UP ) p_input->i_resampling_type = AOUT_RESAMPLING_DOWN; else p_input->i_resampling_type = AOUT_RESAMPLING_UP; p_input->i_resamp_start_drift = 0; } else if( p_input->i_resamp_start_drift && ( abs( (int)(p_buffer->start_date - start_date) ) > abs( p_input->i_resamp_start_drift ) * 3 / 2 ) ) { /* If the drift is increasing and not decreasing, than something * is bad. We'd better stop the resampling right now. */ msg_Warn( p_aout, "timing screwed, stopping resampling" ); p_input->i_resampling_type = AOUT_RESAMPLING_NONE; p_input->pp_resamplers[0]->input.i_rate = p_input->input.i_rate; } } /* Adding the start date will be managed by aout_FifoPush(). */ p_buffer->end_date = start_date + (p_buffer->end_date - p_buffer->start_date); p_buffer->start_date = start_date; /* Actually run the resampler now. */ if ( p_input->i_nb_resamplers > 0 ) { aout_FiltersPlay( p_aout, p_input->pp_resamplers, p_input->i_nb_resamplers, &p_buffer ); } vlc_mutex_lock( &p_aout->input_fifos_lock ); aout_FifoPush( p_aout, &p_input->fifo, p_buffer ); vlc_mutex_unlock( &p_aout->input_fifos_lock ); return 0; }