/***************************************************************************** * auhal.c: AUHAL and Coreaudio output plugin ***************************************************************************** * Copyright (C) 2005 the VideoLAN team * $Id$ * * Authors: Derk-Jan Hartman * * This program is free software; you can redistribute it and/or modify * it under the terms of the GNU General Public License as published by * the Free Software Foundation; either version 2 of the License, or * (at your option) any later version. * * This program 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 General Public License for more details. * * You should have received a copy of the GNU General Public License * along with this program; if not, write to the Free Software * Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston MA 02110-1301, USA. *****************************************************************************/ /***************************************************************************** * Preamble *****************************************************************************/ #ifdef HAVE_CONFIG_H # include "config.h" #endif #include #include #include #include #include #include #include #include #include #define STREAM_FORMAT_MSG( pre, sfm ) \ pre "[%ld][%4.4s][%ld][%ld][%ld][%ld][%ld][%ld]", \ (UInt32)sfm.mSampleRate, (char *)&sfm.mFormatID, \ sfm.mFormatFlags, sfm.mBytesPerPacket, \ sfm.mFramesPerPacket, sfm.mBytesPerFrame, \ sfm.mChannelsPerFrame, sfm.mBitsPerChannel #define STREAM_FORMAT_MSG_FULL( pre, sfm ) \ pre ":\nsamplerate: [%ld]\nFormatID: [%4.4s]\nFormatFlags: [%ld]\nBypesPerPacket: [%ld]\nFramesPerPacket: [%ld]\nBytesPerFrame: [%ld]\nChannelsPerFrame: [%ld]\nBitsPerChannel[%ld]", \ (UInt32)sfm.mSampleRate, (char *)&sfm.mFormatID, \ sfm.mFormatFlags, sfm.mBytesPerPacket, \ sfm.mFramesPerPacket, sfm.mBytesPerFrame, \ sfm.mChannelsPerFrame, sfm.mBitsPerChannel #define BUFSIZE 0xffffff #define AOUT_VAR_SPDIF_FLAG 0xf00000 /* * TODO: * - clean up the debug info * - clean up C99'isms * - be better at changing stream setup or devices setup changes while playing. * - fix 6.1 and 7.1 */ /***************************************************************************** * aout_sys_t: private audio output method descriptor ***************************************************************************** * This structure is part of the audio output thread descriptor. * It describes the CoreAudio specific properties of an output thread. *****************************************************************************/ struct aout_sys_t { AudioDeviceID i_default_dev; /* Keeps DeviceID of defaultOutputDevice */ AudioDeviceID i_selected_dev; /* Keeps DeviceID of the selected device */ UInt32 i_devices; /* Number of CoreAudio Devices */ bool b_supports_digital;/* Does the currently selected device support digital mode? */ bool b_digital; /* Are we running in digital mode? */ mtime_t clock_diff; /* Difference between VLC clock and Device clock */ /* AUHAL specific */ Component au_component; /* The Audiocomponent we use */ AudioUnit au_unit; /* The AudioUnit we use */ uint8_t p_remainder_buffer[BUFSIZE]; uint32_t i_read_bytes; uint32_t i_total_bytes; /* CoreAudio SPDIF mode specific */ pid_t i_hog_pid; /* The keep the pid of our hog status */ AudioStreamID i_stream_id; /* The StreamID that has a cac3 streamformat */ int i_stream_index; /* The index of i_stream_id in an AudioBufferList */ AudioStreamBasicDescription stream_format; /* The format we changed the stream to */ AudioStreamBasicDescription sfmt_revert; /* The original format of the stream */ bool b_revert; /* Wether we need to revert the stream format */ bool b_changed_mixing;/* Wether we need to set the mixing mode back */ }; /***************************************************************************** * Local prototypes. *****************************************************************************/ static int Open ( vlc_object_t * ); static int OpenAnalog ( aout_instance_t * ); static int OpenSPDIF ( aout_instance_t * ); static void Close ( vlc_object_t * ); static void Play ( aout_instance_t * ); static void Probe ( aout_instance_t * ); static int AudioDeviceHasOutput ( AudioDeviceID ); static int AudioDeviceSupportsDigital( aout_instance_t *, AudioDeviceID ); static int AudioStreamSupportsDigital( aout_instance_t *, AudioStreamID ); static int AudioStreamChangeFormat ( aout_instance_t *, AudioStreamID, AudioStreamBasicDescription ); static OSStatus RenderCallbackAnalog ( vlc_object_t *, AudioUnitRenderActionFlags *, const AudioTimeStamp *, unsigned int, unsigned int, AudioBufferList *); static OSStatus RenderCallbackSPDIF ( AudioDeviceID, const AudioTimeStamp *, const void *, const AudioTimeStamp *, AudioBufferList *, const AudioTimeStamp *, void * ); static OSStatus HardwareListener ( AudioHardwarePropertyID, void *); static OSStatus StreamListener ( AudioStreamID, UInt32, AudioDevicePropertyID, void * ); static int AudioDeviceCallback ( vlc_object_t *, const char *, vlc_value_t, vlc_value_t, void * ); /***************************************************************************** * Module descriptor *****************************************************************************/ #define ADEV_TEXT N_("Audio Device") #define ADEV_LONGTEXT N_("Choose a number corresponding to the number of an " \ "audio device, as listed in your 'Audio Device' menu. This device will " \ "then be used by default for audio playback.") vlc_module_begin(); set_shortname( "auhal" ); set_description( _("HAL AudioUnit output") ); set_capability( "audio output", 101 ); set_category( CAT_AUDIO ); set_subcategory( SUBCAT_AUDIO_AOUT ); set_callbacks( Open, Close ); add_integer( "macosx-audio-device", 0, NULL, ADEV_TEXT, ADEV_LONGTEXT, false ); vlc_module_end(); /***************************************************************************** * Open: open macosx audio output *****************************************************************************/ static int Open( vlc_object_t * p_this ) { OSStatus err = noErr; UInt32 i_param_size = 0; struct aout_sys_t *p_sys = NULL; vlc_value_t val; aout_instance_t *p_aout = (aout_instance_t *)p_this; /* Use int here, to match kAudioDevicePropertyDeviceIsAlive * property size */ int b_alive = false; /* Allocate structure */ p_aout->output.p_sys = malloc( sizeof( aout_sys_t ) ); if( p_aout->output.p_sys == NULL ) { msg_Err( p_aout, "out of memory" ); return( VLC_ENOMEM ); } p_sys = p_aout->output.p_sys; p_sys->i_default_dev = 0; p_sys->i_selected_dev = 0; p_sys->i_devices = 0; p_sys->b_supports_digital = false; p_sys->b_digital = false; p_sys->au_component = NULL; p_sys->au_unit = NULL; p_sys->clock_diff = (mtime_t) 0; p_sys->i_read_bytes = 0; p_sys->i_total_bytes = 0; p_sys->i_hog_pid = -1; p_sys->i_stream_id = 0; p_sys->i_stream_index = -1; p_sys->b_revert = false; p_sys->b_changed_mixing = false; memset( p_sys->p_remainder_buffer, 0, sizeof(uint8_t) * BUFSIZE ); p_aout->output.pf_play = Play; aout_FormatPrint( p_aout, "VLC is looking for:", (audio_sample_format_t *)&p_aout->output.output ); /* Persistent device variable */ if( var_Type( p_aout->p_libvlc, "macosx-audio-device" ) == 0 ) { var_Create( p_aout->p_libvlc, "macosx-audio-device", VLC_VAR_INTEGER | VLC_VAR_DOINHERIT ); } /* Build a list of devices */ if( var_Type( p_aout, "audio-device" ) == 0 ) { Probe( p_aout ); } /* What device do we want? */ if( var_Get( p_aout, "audio-device", &val ) < 0 ) { msg_Err( p_aout, "audio-device var does not exist. device probe failed." ); goto error; } p_sys->i_selected_dev = val.i_int & ~AOUT_VAR_SPDIF_FLAG; /* remove SPDIF flag to get the true DeviceID */ p_sys->b_supports_digital = ( val.i_int & AOUT_VAR_SPDIF_FLAG ) ? true : false; /* Check if the desired device is alive and usable */ /* TODO: add a callback to the device to alert us if the device dies */ i_param_size = sizeof( b_alive ); err = AudioDeviceGetProperty( p_sys->i_selected_dev, 0, FALSE, kAudioDevicePropertyDeviceIsAlive, &i_param_size, &b_alive ); if( err != noErr ) { /* Be tolerant, only give a warning here */ msg_Warn( p_aout, "could not check whether device [0x%x] is alive: %4.4s", (unsigned int)p_sys->i_selected_dev, (char *)&err ); b_alive = false; } if( b_alive == false ) { msg_Warn( p_aout, "selected audio device is not alive, switching to default device" ); p_sys->i_selected_dev = p_sys->i_default_dev; } i_param_size = sizeof( p_sys->i_hog_pid ); err = AudioDeviceGetProperty( p_sys->i_selected_dev, 0, FALSE, kAudioDevicePropertyHogMode, &i_param_size, &p_sys->i_hog_pid ); if( err != noErr ) { /* This is not a fatal error. Some drivers simply don't support this property */ msg_Warn( p_aout, "could not check whether device is hogged: %4.4s", (char *)&err ); p_sys->i_hog_pid = -1; } if( p_sys->i_hog_pid != -1 && p_sys->i_hog_pid != getpid() ) { msg_Err( p_aout, "Selected audio device is exclusively in use by another program." ); intf_UserFatal( p_aout, false, _("Audio output failed"), _("The selected audio output device is exclusively in " "use by another program.") ); goto error; } /* Check for Digital mode or Analog output mode */ if( AOUT_FMT_NON_LINEAR( &p_aout->output.output ) && p_sys->b_supports_digital ) { if( OpenSPDIF( p_aout ) ) return VLC_SUCCESS; } else { if( OpenAnalog( p_aout ) ) return VLC_SUCCESS; } error: /* If we reach this, this aout has failed */ var_Destroy( p_aout, "audio-device" ); free( p_sys ); return VLC_EGENERIC; } /***************************************************************************** * Open: open and setup a HAL AudioUnit to do analog (multichannel) audio output *****************************************************************************/ static int OpenAnalog( aout_instance_t *p_aout ) { struct aout_sys_t *p_sys = p_aout->output.p_sys; OSStatus err = noErr; UInt32 i_param_size = 0, i = 0; int i_original; ComponentDescription desc; AudioStreamBasicDescription DeviceFormat; AudioChannelLayout *layout; AudioChannelLayout new_layout; AURenderCallbackStruct input; /* Lets go find our Component */ desc.componentType = kAudioUnitType_Output; desc.componentSubType = kAudioUnitSubType_HALOutput; desc.componentManufacturer = kAudioUnitManufacturer_Apple; desc.componentFlags = 0; desc.componentFlagsMask = 0; p_sys->au_component = FindNextComponent( NULL, &desc ); if( p_sys->au_component == NULL ) { msg_Warn( p_aout, "we cannot find our HAL component" ); return false; } err = OpenAComponent( p_sys->au_component, &p_sys->au_unit ); if( err != noErr ) { msg_Warn( p_aout, "we cannot open our HAL component" ); return false; } /* Set the device we will use for this output unit */ err = AudioUnitSetProperty( p_sys->au_unit, kAudioOutputUnitProperty_CurrentDevice, kAudioUnitScope_Global, 0, &p_sys->i_selected_dev, sizeof( AudioDeviceID )); if( err != noErr ) { msg_Warn( p_aout, "we cannot select the audio device" ); return false; } /* Get the current format */ i_param_size = sizeof(AudioStreamBasicDescription); err = AudioUnitGetProperty( p_sys->au_unit, kAudioUnitProperty_StreamFormat, kAudioUnitScope_Input, 0, &DeviceFormat, &i_param_size ); if( err != noErr ) return false; else msg_Dbg( p_aout, STREAM_FORMAT_MSG( "current format is: ", DeviceFormat ) ); /* Get the channel layout of the device side of the unit (vlc -> unit -> device) */ err = AudioUnitGetPropertyInfo( p_sys->au_unit, kAudioDevicePropertyPreferredChannelLayout, kAudioUnitScope_Output, 0, &i_param_size, NULL ); if( err == noErr ) { layout = (AudioChannelLayout *)malloc( i_param_size); verify_noerr( AudioUnitGetProperty( p_sys->au_unit, kAudioDevicePropertyPreferredChannelLayout, kAudioUnitScope_Output, 0, layout, &i_param_size )); /* We need to "fill out" the ChannelLayout, because there are multiple ways that it can be set */ if( layout->mChannelLayoutTag == kAudioChannelLayoutTag_UseChannelBitmap) { /* bitmap defined channellayout */ verify_noerr( AudioFormatGetProperty( kAudioFormatProperty_ChannelLayoutForBitmap, sizeof( UInt32), &layout->mChannelBitmap, &i_param_size, layout )); } else if( layout->mChannelLayoutTag != kAudioChannelLayoutTag_UseChannelDescriptions ) { /* layouttags defined channellayout */ verify_noerr( AudioFormatGetProperty( kAudioFormatProperty_ChannelLayoutForTag, sizeof( AudioChannelLayoutTag ), &layout->mChannelLayoutTag, &i_param_size, layout )); } msg_Dbg( p_aout, "layout of AUHAL has %d channels" , (int)layout->mNumberChannelDescriptions ); /* Initialize the VLC core channel count */ p_aout->output.output.i_physical_channels = 0; i_original = p_aout->output.output.i_original_channels & AOUT_CHAN_PHYSMASK; if( i_original == AOUT_CHAN_CENTER || layout->mNumberChannelDescriptions < 2 ) { /* We only need Mono or cannot output more than 1 channel */ p_aout->output.output.i_physical_channels = AOUT_CHAN_CENTER; } else if( i_original == (AOUT_CHAN_LEFT | AOUT_CHAN_RIGHT) || layout->mNumberChannelDescriptions < 3 ) { /* We only need Stereo or cannot output more than 2 channels */ p_aout->output.output.i_physical_channels = AOUT_CHAN_RIGHT | AOUT_CHAN_LEFT; } else { /* We want more than stereo and we can do that */ for( i = 0; i < layout->mNumberChannelDescriptions; i++ ) { msg_Dbg( p_aout, "this is channel: %d", (int)layout->mChannelDescriptions[i].mChannelLabel ); switch( layout->mChannelDescriptions[i].mChannelLabel ) { case kAudioChannelLabel_Left: p_aout->output.output.i_physical_channels |= AOUT_CHAN_LEFT; continue; case kAudioChannelLabel_Right: p_aout->output.output.i_physical_channels |= AOUT_CHAN_RIGHT; continue; case kAudioChannelLabel_Center: p_aout->output.output.i_physical_channels |= AOUT_CHAN_CENTER; continue; case kAudioChannelLabel_LFEScreen: p_aout->output.output.i_physical_channels |= AOUT_CHAN_LFE; continue; case kAudioChannelLabel_LeftSurround: p_aout->output.output.i_physical_channels |= AOUT_CHAN_REARLEFT; continue; case kAudioChannelLabel_RightSurround: p_aout->output.output.i_physical_channels |= AOUT_CHAN_REARRIGHT; continue; case kAudioChannelLabel_RearSurroundLeft: p_aout->output.output.i_physical_channels |= AOUT_CHAN_MIDDLELEFT; continue; case kAudioChannelLabel_RearSurroundRight: p_aout->output.output.i_physical_channels |= AOUT_CHAN_MIDDLERIGHT; continue; case kAudioChannelLabel_CenterSurround: p_aout->output.output.i_physical_channels |= AOUT_CHAN_REARCENTER; continue; default: msg_Warn( p_aout, "unrecognized channel form provided by driver: %d", (int)layout->mChannelDescriptions[i].mChannelLabel ); } } if( p_aout->output.output.i_physical_channels == 0 ) { p_aout->output.output.i_physical_channels = AOUT_CHAN_LEFT | AOUT_CHAN_RIGHT; msg_Err( p_aout, "You should configure your speaker layout with Audio Midi Setup Utility in /Applications/Utilities. Now using Stereo mode." ); intf_UserFatal( p_aout, false, _("Audio device is not configured"), _("You should configure your speaker layout with " "the \"Audio Midi Setup\" utility in /Applications/" "Utilities. Stereo mode is being used now.") ); } } free( layout ); } else { msg_Warn( p_aout, "this driver does not support kAudioDevicePropertyPreferredChannelLayout. BAD DRIVER AUTHOR !!!" ); p_aout->output.output.i_physical_channels = AOUT_CHAN_LEFT | AOUT_CHAN_RIGHT; } msg_Dbg( p_aout, "selected %d physical channels for device output", aout_FormatNbChannels( &p_aout->output.output ) ); msg_Dbg( p_aout, "VLC will output: %s", aout_FormatPrintChannels( &p_aout->output.output )); memset (&new_layout, 0, sizeof(new_layout)); switch( aout_FormatNbChannels( &p_aout->output.output ) ) { case 1: new_layout.mChannelLayoutTag = kAudioChannelLayoutTag_Mono; break; case 2: new_layout.mChannelLayoutTag = kAudioChannelLayoutTag_Stereo; break; case 3: if( p_aout->output.output.i_physical_channels & AOUT_CHAN_CENTER ) { new_layout.mChannelLayoutTag = kAudioChannelLayoutTag_DVD_7; // L R C } else if( p_aout->output.output.i_physical_channels & AOUT_CHAN_LFE ) { new_layout.mChannelLayoutTag = kAudioChannelLayoutTag_DVD_4; // L R LFE } break; case 4: if( p_aout->output.output.i_physical_channels & ( AOUT_CHAN_CENTER | AOUT_CHAN_LFE ) ) { new_layout.mChannelLayoutTag = kAudioChannelLayoutTag_DVD_10; // L R C LFE } else if( p_aout->output.output.i_physical_channels & ( AOUT_CHAN_REARLEFT | AOUT_CHAN_REARRIGHT ) ) { new_layout.mChannelLayoutTag = kAudioChannelLayoutTag_DVD_3; // L R Ls Rs } else if( p_aout->output.output.i_physical_channels & ( AOUT_CHAN_CENTER | AOUT_CHAN_REARCENTER ) ) { new_layout.mChannelLayoutTag = kAudioChannelLayoutTag_DVD_3; // L R C Cs } break; case 5: if( p_aout->output.output.i_physical_channels & ( AOUT_CHAN_CENTER ) ) { new_layout.mChannelLayoutTag = kAudioChannelLayoutTag_DVD_19; // L R Ls Rs C } else if( p_aout->output.output.i_physical_channels & ( AOUT_CHAN_LFE ) ) { new_layout.mChannelLayoutTag = kAudioChannelLayoutTag_DVD_18; // L R Ls Rs LFE } break; case 6: if( p_aout->output.output.i_physical_channels & ( AOUT_CHAN_LFE ) ) { new_layout.mChannelLayoutTag = kAudioChannelLayoutTag_DVD_20; // L R Ls Rs C LFE } else { new_layout.mChannelLayoutTag = kAudioChannelLayoutTag_AudioUnit_6_0; // L R Ls Rs C Cs } break; case 7: /* FIXME: This is incorrect. VLC uses the internal ordering: L R Lm Rm Lr Rr C LFE but this is wrong */ new_layout.mChannelLayoutTag = kAudioChannelLayoutTag_MPEG_6_1_A; // L R C LFE Ls Rs Cs break; case 8: /* FIXME: This is incorrect. VLC uses the internal ordering: L R Lm Rm Lr Rr C LFE but this is wrong */ new_layout.mChannelLayoutTag = kAudioChannelLayoutTag_MPEG_7_1_A; // L R C LFE Ls Rs Lc Rc break; } /* Set up the format to be used */ DeviceFormat.mSampleRate = p_aout->output.output.i_rate; DeviceFormat.mFormatID = kAudioFormatLinearPCM; /* We use float 32. It's the best supported format by both VLC and Coreaudio */ p_aout->output.output.i_format = VLC_FOURCC( 'f','l','3','2'); DeviceFormat.mFormatFlags = kAudioFormatFlagsNativeFloatPacked; DeviceFormat.mBitsPerChannel = 32; DeviceFormat.mChannelsPerFrame = aout_FormatNbChannels( &p_aout->output.output ); /* Calculate framesizes and stuff */ DeviceFormat.mFramesPerPacket = 1; DeviceFormat.mBytesPerFrame = DeviceFormat.mBitsPerChannel * DeviceFormat.mChannelsPerFrame / 8; DeviceFormat.mBytesPerPacket = DeviceFormat.mBytesPerFrame * DeviceFormat.mFramesPerPacket; /* Set the desired format */ i_param_size = sizeof(AudioStreamBasicDescription); verify_noerr( AudioUnitSetProperty( p_sys->au_unit, kAudioUnitProperty_StreamFormat, kAudioUnitScope_Input, 0, &DeviceFormat, i_param_size )); msg_Dbg( p_aout, STREAM_FORMAT_MSG( "we set the AU format: " , DeviceFormat ) ); /* Retrieve actual format */ verify_noerr( AudioUnitGetProperty( p_sys->au_unit, kAudioUnitProperty_StreamFormat, kAudioUnitScope_Input, 0, &DeviceFormat, &i_param_size )); msg_Dbg( p_aout, STREAM_FORMAT_MSG( "the actual set AU format is " , DeviceFormat ) ); /* Do the last VLC aout setups */ aout_FormatPrepare( &p_aout->output.output ); p_aout->output.i_nb_samples = 2048; aout_VolumeSoftInit( p_aout ); /* set the IOproc callback */ input.inputProc = (AURenderCallback) RenderCallbackAnalog; input.inputProcRefCon = p_aout; verify_noerr( AudioUnitSetProperty( p_sys->au_unit, kAudioUnitProperty_SetRenderCallback, kAudioUnitScope_Input, 0, &input, sizeof( input ) ) ); input.inputProc = (AURenderCallback) RenderCallbackAnalog; input.inputProcRefCon = p_aout; /* Set the new_layout as the layout VLC will use to feed the AU unit */ verify_noerr( AudioUnitSetProperty( p_sys->au_unit, kAudioUnitProperty_AudioChannelLayout, kAudioUnitScope_Input, 0, &new_layout, sizeof(new_layout) ) ); if( new_layout.mNumberChannelDescriptions > 0 ) free( new_layout.mChannelDescriptions ); /* AU initiliaze */ verify_noerr( AudioUnitInitialize(p_sys->au_unit) ); /* Find the difference between device clock and mdate clock */ p_sys->clock_diff = - (mtime_t) AudioConvertHostTimeToNanos( AudioGetCurrentHostTime() ) / 1000; p_sys->clock_diff += mdate(); /* Start the AU */ verify_noerr( AudioOutputUnitStart(p_sys->au_unit) ); return true; } /***************************************************************************** * Setup a encoded digital stream (SPDIF) *****************************************************************************/ static int OpenSPDIF( aout_instance_t * p_aout ) { struct aout_sys_t *p_sys = p_aout->output.p_sys; OSStatus err = noErr; UInt32 i_param_size = 0, b_mix = 0; Boolean b_writeable = false; AudioStreamID *p_streams = NULL; int i = 0, i_streams = 0; /* Start doing the SPDIF setup proces */ p_sys->b_digital = true; /* Hog the device */ i_param_size = sizeof( p_sys->i_hog_pid ); p_sys->i_hog_pid = getpid() ; err = AudioDeviceSetProperty( p_sys->i_selected_dev, 0, 0, FALSE, kAudioDevicePropertyHogMode, i_param_size, &p_sys->i_hog_pid ); if( err != noErr ) { msg_Err( p_aout, "failed to set hogmode: [%4.4s]", (char *)&err ); return false; } /* Set mixable to false if we are allowed to */ err = AudioDeviceGetPropertyInfo( p_sys->i_selected_dev, 0, FALSE, kAudioDevicePropertySupportsMixing, &i_param_size, &b_writeable ); err = AudioDeviceGetProperty( p_sys->i_selected_dev, 0, FALSE, kAudioDevicePropertySupportsMixing, &i_param_size, &b_mix ); if( !err && b_writeable ) { b_mix = 0; err = AudioDeviceSetProperty( p_sys->i_selected_dev, 0, 0, FALSE, kAudioDevicePropertySupportsMixing, i_param_size, &b_mix ); p_sys->b_changed_mixing = true; } if( err != noErr ) { msg_Err( p_aout, "failed to set mixmode: [%4.4s]", (char *)&err ); return false; } /* Get a list of all the streams on this device */ err = AudioDeviceGetPropertyInfo( p_sys->i_selected_dev, 0, FALSE, kAudioDevicePropertyStreams, &i_param_size, NULL ); if( err != noErr ) { msg_Err( p_aout, "could not get number of streams: [%4.4s]", (char *)&err ); return false; } i_streams = i_param_size / sizeof( AudioStreamID ); p_streams = (AudioStreamID *)malloc( i_param_size ); if( p_streams == NULL ) { msg_Err( p_aout, "out of memory" ); return false; } err = AudioDeviceGetProperty( p_sys->i_selected_dev, 0, FALSE, kAudioDevicePropertyStreams, &i_param_size, p_streams ); if( err != noErr ) { msg_Err( p_aout, "could not get number of streams: [%4.4s]", (char *)&err ); free( p_streams ); return false; } for( i = 0; i < i_streams && p_sys->i_stream_index < 0 ; i++ ) { /* Find a stream with a cac3 stream */ AudioStreamBasicDescription *p_format_list = NULL; int i_formats = 0, j = 0; bool b_digital = false; /* Retrieve all the stream formats supported by each output stream */ err = AudioStreamGetPropertyInfo( p_streams[i], 0, kAudioStreamPropertyPhysicalFormats, &i_param_size, NULL ); if( err != noErr ) { msg_Err( p_aout, "could not get number of streamformats: [%4.4s]", (char *)&err ); continue; } i_formats = i_param_size / sizeof( AudioStreamBasicDescription ); p_format_list = (AudioStreamBasicDescription *)malloc( i_param_size ); if( p_format_list == NULL ) { msg_Err( p_aout, "could not malloc the memory" ); continue; } err = AudioStreamGetProperty( p_streams[i], 0, kAudioStreamPropertyPhysicalFormats, &i_param_size, p_format_list ); if( err != noErr ) { msg_Err( p_aout, "could not get the list of streamformats: [%4.4s]", (char *)&err ); free( p_format_list ); continue; } /* Check if one of the supported formats is a digital format */ for( j = 0; j < i_formats; j++ ) { if( p_format_list[j].mFormatID == 'IAC3' || p_format_list[j].mFormatID == kAudioFormat60958AC3 ) { b_digital = true; break; } } if( b_digital ) { /* if this stream supports a digital (cac3) format, then go set it. */ int i_requested_rate_format = -1; int i_current_rate_format = -1; int i_backup_rate_format = -1; p_sys->i_stream_id = p_streams[i]; p_sys->i_stream_index = i; if( p_sys->b_revert == false ) { /* Retrieve the original format of this stream first if not done so already */ i_param_size = sizeof( p_sys->sfmt_revert ); err = AudioStreamGetProperty( p_sys->i_stream_id, 0, kAudioStreamPropertyPhysicalFormat, &i_param_size, &p_sys->sfmt_revert ); if( err != noErr ) { msg_Err( p_aout, "could not retrieve the original streamformat: [%4.4s]", (char *)&err ); continue; } p_sys->b_revert = true; } for( j = 0; j < i_formats; j++ ) { if( p_format_list[j].mFormatID == 'IAC3' || p_format_list[j].mFormatID == kAudioFormat60958AC3 ) { if( p_format_list[j].mSampleRate == p_aout->output.output.i_rate ) { i_requested_rate_format = j; break; } else if( p_format_list[j].mSampleRate == p_sys->sfmt_revert.mSampleRate ) { i_current_rate_format = j; } else { if( i_backup_rate_format < 0 || p_format_list[j].mSampleRate > p_format_list[i_backup_rate_format].mSampleRate ) i_backup_rate_format = j; } } } if( i_requested_rate_format >= 0 ) /* We prefer to output at the samplerate of the original audio */ p_sys->stream_format = p_format_list[i_requested_rate_format]; else if( i_current_rate_format >= 0 ) /* If not possible, we will try to use the current samplerate of the device */ p_sys->stream_format = p_format_list[i_current_rate_format]; else p_sys->stream_format = p_format_list[i_backup_rate_format]; /* And if we have to, any digital format will be just fine (highest rate possible) */ } free( p_format_list ); } free( p_streams ); msg_Dbg( p_aout, STREAM_FORMAT_MSG( "original stream format: ", p_sys->sfmt_revert ) ); if( !AudioStreamChangeFormat( p_aout, p_sys->i_stream_id, p_sys->stream_format ) ) return false; /* Set the format flags */ if( p_sys->stream_format.mFormatFlags & kAudioFormatFlagIsBigEndian ) p_aout->output.output.i_format = VLC_FOURCC('s','p','d','b'); else p_aout->output.output.i_format = VLC_FOURCC('s','p','d','i'); p_aout->output.output.i_bytes_per_frame = AOUT_SPDIF_SIZE; p_aout->output.output.i_frame_length = A52_FRAME_NB; p_aout->output.i_nb_samples = p_aout->output.output.i_frame_length; p_aout->output.output.i_rate = (unsigned int)p_sys->stream_format.mSampleRate; aout_FormatPrepare( &p_aout->output.output ); aout_VolumeNoneInit( p_aout ); /* Add IOProc callback */ err = AudioDeviceAddIOProc( p_sys->i_selected_dev, (AudioDeviceIOProc)RenderCallbackSPDIF, (void *)p_aout ); if( err != noErr ) { msg_Err( p_aout, "AudioDeviceAddIOProc failed: [%4.4s]", (char *)&err ); return false; } /* Check for the difference between the Device clock and mdate */ p_sys->clock_diff = - (mtime_t) AudioConvertHostTimeToNanos( AudioGetCurrentHostTime() ) / 1000; p_sys->clock_diff += mdate(); /* Start device */ err = AudioDeviceStart( p_sys->i_selected_dev, (AudioDeviceIOProc)RenderCallbackSPDIF ); if( err != noErr ) { msg_Err( p_aout, "AudioDeviceStart failed: [%4.4s]", (char *)&err ); err = AudioDeviceRemoveIOProc( p_sys->i_selected_dev, (AudioDeviceIOProc)RenderCallbackSPDIF ); if( err != noErr ) { msg_Err( p_aout, "AudioDeviceRemoveIOProc failed: [%4.4s]", (char *)&err ); } return false; } return true; } /***************************************************************************** * Close: Close HAL AudioUnit *****************************************************************************/ static void Close( vlc_object_t * p_this ) { aout_instance_t *p_aout = (aout_instance_t *)p_this; struct aout_sys_t *p_sys = p_aout->output.p_sys; OSStatus err = noErr; UInt32 i_param_size = 0; if( p_sys->au_unit ) { verify_noerr( AudioOutputUnitStop( p_sys->au_unit ) ); verify_noerr( AudioUnitUninitialize( p_sys->au_unit ) ); verify_noerr( CloseComponent( p_sys->au_unit ) ); } if( p_sys->b_digital ) { /* Stop device */ err = AudioDeviceStop( p_sys->i_selected_dev, (AudioDeviceIOProc)RenderCallbackSPDIF ); if( err != noErr ) { msg_Err( p_aout, "AudioDeviceStop failed: [%4.4s]", (char *)&err ); } /* Remove IOProc callback */ err = AudioDeviceRemoveIOProc( p_sys->i_selected_dev, (AudioDeviceIOProc)RenderCallbackSPDIF ); if( err != noErr ) { msg_Err( p_aout, "AudioDeviceRemoveIOProc failed: [%4.4s]", (char *)&err ); } if( p_sys->b_revert ) { AudioStreamChangeFormat( p_aout, p_sys->i_stream_id, p_sys->sfmt_revert ); } if( p_sys->b_changed_mixing && p_sys->sfmt_revert.mFormatID != kAudioFormat60958AC3 ) { int b_mix; Boolean b_writeable; /* Revert mixable to true if we are allowed to */ err = AudioDeviceGetPropertyInfo( p_sys->i_selected_dev, 0, FALSE, kAudioDevicePropertySupportsMixing, &i_param_size, &b_writeable ); err = AudioDeviceGetProperty( p_sys->i_selected_dev, 0, FALSE, kAudioDevicePropertySupportsMixing, &i_param_size, &b_mix ); if( !err && b_writeable ) { msg_Dbg( p_aout, "mixable is: %d", b_mix ); b_mix = 1; err = AudioDeviceSetProperty( p_sys->i_selected_dev, 0, 0, FALSE, kAudioDevicePropertySupportsMixing, i_param_size, &b_mix ); } if( err != noErr ) { msg_Err( p_aout, "failed to set mixmode: [%4.4s]", (char *)&err ); } } } err = AudioHardwareRemovePropertyListener( kAudioHardwarePropertyDevices, HardwareListener ); if( err != noErr ) { msg_Err( p_aout, "AudioHardwareRemovePropertyListener failed: [%4.4s]", (char *)&err ); } if( p_sys->i_hog_pid == getpid() ) { p_sys->i_hog_pid = -1; i_param_size = sizeof( p_sys->i_hog_pid ); err = AudioDeviceSetProperty( p_sys->i_selected_dev, 0, 0, FALSE, kAudioDevicePropertyHogMode, i_param_size, &p_sys->i_hog_pid ); if( err != noErr ) msg_Err( p_aout, "Could not release hogmode: [%4.4s]", (char *)&err ); } free( p_sys ); } /***************************************************************************** * Play: nothing to do *****************************************************************************/ static void Play( aout_instance_t * p_aout ) { } /***************************************************************************** * Probe: Check which devices the OS has, and add them to our audio-device menu *****************************************************************************/ static void Probe( aout_instance_t * p_aout ) { OSStatus err = noErr; UInt32 i = 0, i_param_size = 0; AudioDeviceID devid_def = 0; AudioDeviceID *p_devices = NULL; vlc_value_t val, text; struct aout_sys_t *p_sys = p_aout->output.p_sys; /* Get number of devices */ err = AudioHardwareGetPropertyInfo( kAudioHardwarePropertyDevices, &i_param_size, NULL ); if( err != noErr ) { msg_Err( p_aout, "Could not get number of devices: [%4.4s]", (char *)&err ); goto error; } p_sys->i_devices = i_param_size / sizeof( AudioDeviceID ); if( p_sys->i_devices < 1 ) { msg_Err( p_aout, "No audio output devices were found." ); goto error; } msg_Dbg( p_aout, "system has [%ld] device(s)", p_sys->i_devices ); /* Allocate DeviceID array */ p_devices = (AudioDeviceID*)malloc( sizeof(AudioDeviceID) * p_sys->i_devices ); if( p_devices == NULL ) { msg_Err( p_aout, "out of memory" ); goto error; } /* Populate DeviceID array */ err = AudioHardwareGetProperty( kAudioHardwarePropertyDevices, &i_param_size, p_devices ); if( err != noErr ) { msg_Err( p_aout, "could not get the device IDs: [%4.4s]", (char *)&err ); goto error; } /* Find the ID of the default Device */ i_param_size = sizeof( AudioDeviceID ); err = AudioHardwareGetProperty( kAudioHardwarePropertyDefaultOutputDevice, &i_param_size, &devid_def ); if( err != noErr ) { msg_Err( p_aout, "could not get default audio device: [%4.4s]", (char *)&err ); goto error; } p_sys->i_default_dev = devid_def; var_Create( p_aout, "audio-device", VLC_VAR_INTEGER|VLC_VAR_HASCHOICE ); text.psz_string = _("Audio Device"); var_Change( p_aout, "audio-device", VLC_VAR_SETTEXT, &text, NULL ); for( i = 0; i < p_sys->i_devices; i++ ) { char *psz_name; i_param_size = 0; /* Retrieve the length of the device name */ err = AudioDeviceGetPropertyInfo( p_devices[i], 0, false, kAudioDevicePropertyDeviceName, &i_param_size, NULL); if( err ) goto error; /* Retrieve the name of the device */ psz_name = (char *)malloc( i_param_size ); err = AudioDeviceGetProperty( p_devices[i], 0, false, kAudioDevicePropertyDeviceName, &i_param_size, psz_name); if( err ) goto error; msg_Dbg( p_aout, "DevID: %#lx DevName: %s", p_devices[i], psz_name ); if( !AudioDeviceHasOutput( p_devices[i]) ) { msg_Dbg( p_aout, "this device is INPUT only. skipping..." ); continue; } /* Add the menu entries */ val.i_int = (int)p_devices[i]; text.psz_string = strdup( psz_name ); var_Change( p_aout, "audio-device", VLC_VAR_ADDCHOICE, &val, &text ); if( p_sys->i_default_dev == p_devices[i] ) { /* The default device is the selected device normally */ var_Change( p_aout, "audio-device", VLC_VAR_SETDEFAULT, &val, NULL ); var_Set( p_aout, "audio-device", val ); } if( AudioDeviceSupportsDigital( p_aout, p_devices[i] ) ) { val.i_int = (int)p_devices[i] | AOUT_VAR_SPDIF_FLAG; asprintf( &text.psz_string, _("%s (Encoded Output)"), psz_name ); var_Change( p_aout, "audio-device", VLC_VAR_ADDCHOICE, &val, &text ); if( p_sys->i_default_dev == p_devices[i] && config_GetInt( p_aout, "spdif" ) ) { /* We selected to prefer SPDIF output if available * then this "dummy" entry should be selected */ var_Change( p_aout, "audio-device", VLC_VAR_SETDEFAULT, &val, NULL ); var_Set( p_aout, "audio-device", val ); } } free( psz_name); } /* If a device is already "preselected", then use this device */ var_Get( p_aout->p_libvlc, "macosx-audio-device", &val ); if( val.i_int > 0 ) { var_Change( p_aout, "audio-device", VLC_VAR_SETDEFAULT, &val, NULL ); var_Set( p_aout, "audio-device", val ); } /* If we change the device we want to use, we should renegotiate the audio chain */ var_AddCallback( p_aout, "audio-device", AudioDeviceCallback, NULL ); /* Attach a Listener so that we are notified of a change in the Device setup */ err = AudioHardwareAddPropertyListener( kAudioHardwarePropertyDevices, HardwareListener, (void *)p_aout ); if( err ) goto error; free( p_devices ); return; error: var_Destroy( p_aout, "audio-device" ); free( p_devices ); return; } /***************************************************************************** * AudioDeviceHasOutput: Checks if the Device actually provides any outputs at all *****************************************************************************/ static int AudioDeviceHasOutput( AudioDeviceID i_dev_id ) { UInt32 dataSize; Boolean isWritable; verify_noerr( AudioDeviceGetPropertyInfo( i_dev_id, 0, FALSE, kAudioDevicePropertyStreams, &dataSize, &isWritable) ); if (dataSize == 0) return FALSE; return TRUE; } /***************************************************************************** * AudioDeviceSupportsDigital: Check i_dev_id for digital stream support. *****************************************************************************/ static int AudioDeviceSupportsDigital( aout_instance_t *p_aout, AudioDeviceID i_dev_id ) { OSStatus err = noErr; UInt32 i_param_size = 0; AudioStreamID *p_streams = NULL; int i = 0, i_streams = 0; bool b_return = false; /* Retrieve all the output streams */ err = AudioDeviceGetPropertyInfo( i_dev_id, 0, FALSE, kAudioDevicePropertyStreams, &i_param_size, NULL ); if( err != noErr ) { msg_Err( p_aout, "could not get number of streams: [%4.4s]", (char *)&err ); return false; } i_streams = i_param_size / sizeof( AudioStreamID ); p_streams = (AudioStreamID *)malloc( i_param_size ); if( p_streams == NULL ) { msg_Err( p_aout, "out of memory" ); return VLC_ENOMEM; } err = AudioDeviceGetProperty( i_dev_id, 0, FALSE, kAudioDevicePropertyStreams, &i_param_size, p_streams ); if( err != noErr ) { msg_Err( p_aout, "could not get number of streams: [%4.4s]", (char *)&err ); return false; } for( i = 0; i < i_streams; i++ ) { if( AudioStreamSupportsDigital( p_aout, p_streams[i] ) ) b_return = true; } free( p_streams ); return b_return; } /***************************************************************************** * AudioStreamSupportsDigital: Check i_stream_id for digital stream support. *****************************************************************************/ static int AudioStreamSupportsDigital( aout_instance_t *p_aout, AudioStreamID i_stream_id ) { OSStatus err = noErr; UInt32 i_param_size = 0; AudioStreamBasicDescription *p_format_list = NULL; int i = 0, i_formats = 0; bool b_return = false; /* Retrieve all the stream formats supported by each output stream */ err = AudioStreamGetPropertyInfo( i_stream_id, 0, kAudioStreamPropertyPhysicalFormats, &i_param_size, NULL ); if( err != noErr ) { msg_Err( p_aout, "could not get number of streamformats: [%4.4s]", (char *)&err ); return false; } i_formats = i_param_size / sizeof( AudioStreamBasicDescription ); p_format_list = (AudioStreamBasicDescription *)malloc( i_param_size ); if( p_format_list == NULL ) { msg_Err( p_aout, "could not malloc the memory" ); return false; } err = AudioStreamGetProperty( i_stream_id, 0, kAudioStreamPropertyPhysicalFormats, &i_param_size, p_format_list ); if( err != noErr ) { msg_Err( p_aout, "could not get the list of streamformats: [%4.4s]", (char *)&err ); free( p_format_list); p_format_list = NULL; return false; } for( i = 0; i < i_formats; i++ ) { msg_Dbg( p_aout, STREAM_FORMAT_MSG( "supported format: ", p_format_list[i] ) ); if( p_format_list[i].mFormatID == 'IAC3' || p_format_list[i].mFormatID == kAudioFormat60958AC3 ) { b_return = true; } } free( p_format_list ); return b_return; } /***************************************************************************** * AudioStreamChangeFormat: Change i_stream_id to change_format *****************************************************************************/ static int AudioStreamChangeFormat( aout_instance_t *p_aout, AudioStreamID i_stream_id, AudioStreamBasicDescription change_format ) { OSStatus err = noErr; UInt32 i_param_size = 0; int i; struct { vlc_mutex_t lock; vlc_cond_t cond; } w; msg_Dbg( p_aout, STREAM_FORMAT_MSG( "setting stream format: ", change_format ) ); /* Condition because SetProperty is asynchronious */ vlc_cond_init( p_aout, &w.cond ); vlc_mutex_init( &w.lock ); vlc_mutex_lock( &w.lock ); /* Install the callback */ err = AudioStreamAddPropertyListener( i_stream_id, 0, kAudioStreamPropertyPhysicalFormat, StreamListener, (void *)&w ); if( err != noErr ) { msg_Err( p_aout, "AudioStreamAddPropertyListener failed: [%4.4s]", (char *)&err ); return false; } /* change the format */ err = AudioStreamSetProperty( i_stream_id, 0, 0, kAudioStreamPropertyPhysicalFormat, sizeof( AudioStreamBasicDescription ), &change_format ); if( err != noErr ) { msg_Err( p_aout, "could not set the stream format: [%4.4s]", (char *)&err ); return false; } /* The AudioStreamSetProperty is not only asynchronious (requiring the locks) * it is also not atomic in its behaviour. * Therefore we check 5 times before we really give up. * FIXME: failing isn't actually implemented yet. */ for( i = 0; i < 5; i++ ) { AudioStreamBasicDescription actual_format; mtime_t timeout = mdate() + 500000; if( vlc_cond_timedwait( &w.cond, &w.lock, timeout ) ) { msg_Dbg( p_aout, "reached timeout" ); } i_param_size = sizeof( AudioStreamBasicDescription ); err = AudioStreamGetProperty( i_stream_id, 0, kAudioStreamPropertyPhysicalFormat, &i_param_size, &actual_format ); msg_Dbg( p_aout, STREAM_FORMAT_MSG( "actual format in use: ", actual_format ) ); if( actual_format.mSampleRate == change_format.mSampleRate && actual_format.mFormatID == change_format.mFormatID && actual_format.mFramesPerPacket == change_format.mFramesPerPacket ) { /* The right format is now active */ break; } /* We need to check again */ } /* Removing the property listener */ err = AudioStreamRemovePropertyListener( i_stream_id, 0, kAudioStreamPropertyPhysicalFormat, StreamListener ); if( err != noErr ) { msg_Err( p_aout, "AudioStreamRemovePropertyListener failed: [%4.4s]", (char *)&err ); return false; } /* Destroy the lock and condition */ vlc_mutex_unlock( &w.lock ); vlc_mutex_destroy( &w.lock ); vlc_cond_destroy( &w.cond ); return true; } /***************************************************************************** * RenderCallbackAnalog: This function is called everytime the AudioUnit wants * us to provide some more audio data. * Don't print anything during normal playback, calling blocking function from * this callback is not allowed. *****************************************************************************/ static OSStatus RenderCallbackAnalog( vlc_object_t *_p_aout, AudioUnitRenderActionFlags *ioActionFlags, const AudioTimeStamp *inTimeStamp, unsigned int inBusNummer, unsigned int inNumberFrames, AudioBufferList *ioData ) { AudioTimeStamp host_time; mtime_t current_date = 0; uint32_t i_mData_bytes = 0; aout_instance_t * p_aout = (aout_instance_t *)_p_aout; struct aout_sys_t * p_sys = p_aout->output.p_sys; host_time.mFlags = kAudioTimeStampHostTimeValid; AudioDeviceTranslateTime( p_sys->i_selected_dev, inTimeStamp, &host_time ); /* Check for the difference between the Device clock and mdate */ p_sys->clock_diff = - (mtime_t) AudioConvertHostTimeToNanos( AudioGetCurrentHostTime() ) / 1000; p_sys->clock_diff += mdate(); current_date = p_sys->clock_diff + AudioConvertHostTimeToNanos( host_time.mHostTime ) / 1000; //- ((mtime_t) 1000000 / p_aout->output.output.i_rate * 31 ); // 31 = Latency in Frames. retrieve somewhere if( ioData == NULL && ioData->mNumberBuffers < 1 ) { msg_Err( p_aout, "no iodata or buffers"); return 0; } if( ioData->mNumberBuffers > 1 ) msg_Err( p_aout, "well this is weird. seems like there is more than one buffer..." ); if( p_sys->i_total_bytes > 0 ) { i_mData_bytes = __MIN( p_sys->i_total_bytes - p_sys->i_read_bytes, ioData->mBuffers[0].mDataByteSize ); vlc_memcpy( ioData->mBuffers[0].mData, &p_sys->p_remainder_buffer[p_sys->i_read_bytes], i_mData_bytes ); p_sys->i_read_bytes += i_mData_bytes; current_date += (mtime_t) ( (mtime_t) 1000000 / p_aout->output.output.i_rate ) * ( i_mData_bytes / 4 / aout_FormatNbChannels( &p_aout->output.output ) ); // 4 is fl32 specific if( p_sys->i_read_bytes >= p_sys->i_total_bytes ) p_sys->i_read_bytes = p_sys->i_total_bytes = 0; } while( i_mData_bytes < ioData->mBuffers[0].mDataByteSize ) { /* We don't have enough data yet */ aout_buffer_t * p_buffer; p_buffer = aout_OutputNextBuffer( p_aout, current_date , false ); if( p_buffer != NULL ) { uint32_t i_second_mData_bytes = __MIN( p_buffer->i_nb_bytes, ioData->mBuffers[0].mDataByteSize - i_mData_bytes ); vlc_memcpy( (uint8_t *)ioData->mBuffers[0].mData + i_mData_bytes, p_buffer->p_buffer, i_second_mData_bytes ); i_mData_bytes += i_second_mData_bytes; if( i_mData_bytes >= ioData->mBuffers[0].mDataByteSize ) { p_sys->i_total_bytes = p_buffer->i_nb_bytes - i_second_mData_bytes; vlc_memcpy( p_sys->p_remainder_buffer, &p_buffer->p_buffer[i_second_mData_bytes], p_sys->i_total_bytes ); } else { /* update current_date */ current_date += (mtime_t) ( (mtime_t) 1000000 / p_aout->output.output.i_rate ) * ( i_second_mData_bytes / 4 / aout_FormatNbChannels( &p_aout->output.output ) ); // 4 is fl32 specific } aout_BufferFree( p_buffer ); } else { vlc_memset( (uint8_t *)ioData->mBuffers[0].mData +i_mData_bytes, 0,ioData->mBuffers[0].mDataByteSize - i_mData_bytes ); i_mData_bytes += ioData->mBuffers[0].mDataByteSize - i_mData_bytes; } } return( noErr ); } /***************************************************************************** * RenderCallbackSPDIF: callback for SPDIF audio output *****************************************************************************/ static OSStatus RenderCallbackSPDIF( AudioDeviceID inDevice, const AudioTimeStamp * inNow, const void * inInputData, const AudioTimeStamp * inInputTime, AudioBufferList * outOutputData, const AudioTimeStamp * inOutputTime, void * threadGlobals ) { aout_buffer_t * p_buffer; mtime_t current_date; aout_instance_t * p_aout = (aout_instance_t *)threadGlobals; struct aout_sys_t * p_sys = p_aout->output.p_sys; /* Check for the difference between the Device clock and mdate */ p_sys->clock_diff = - (mtime_t) AudioConvertHostTimeToNanos( inNow->mHostTime ) / 1000; p_sys->clock_diff += mdate(); current_date = p_sys->clock_diff + AudioConvertHostTimeToNanos( inOutputTime->mHostTime ) / 1000; //- ((mtime_t) 1000000 / p_aout->output.output.i_rate * 31 ); // 31 = Latency in Frames. retrieve somewhere p_buffer = aout_OutputNextBuffer( p_aout, current_date, true ); #define BUFFER outOutputData->mBuffers[p_sys->i_stream_index] if( p_buffer != NULL ) { if( (int)BUFFER.mDataByteSize != (int)p_buffer->i_nb_bytes) msg_Warn( p_aout, "bytesize: %d nb_bytes: %d", (int)BUFFER.mDataByteSize, (int)p_buffer->i_nb_bytes ); /* move data into output data buffer */ vlc_memcpy( BUFFER.mData, p_buffer->p_buffer, p_buffer->i_nb_bytes ); aout_BufferFree( p_buffer ); } else { vlc_memset( BUFFER.mData, 0, BUFFER.mDataByteSize ); } #undef BUFFER return( noErr ); } /***************************************************************************** * HardwareListener: Warns us of changes in the list of registered devices *****************************************************************************/ static OSStatus HardwareListener( AudioHardwarePropertyID inPropertyID, void * inClientData ) { OSStatus err = noErr; aout_instance_t *p_aout = (aout_instance_t *)inClientData; switch( inPropertyID ) { case kAudioHardwarePropertyDevices: { /* something changed in the list of devices */ /* We trigger the audio-device's aout_ChannelsRestart callback */ var_Change( p_aout, "audio-device", VLC_VAR_TRIGGER_CALLBACKS, NULL, NULL ); var_Destroy( p_aout, "audio-device" ); } break; } return( err ); } /***************************************************************************** * StreamListener *****************************************************************************/ static OSStatus StreamListener( AudioStreamID inStream, UInt32 inChannel, AudioDevicePropertyID inPropertyID, void * inClientData ) { OSStatus err = noErr; struct { vlc_mutex_t lock; vlc_cond_t cond; } * w = inClientData; switch( inPropertyID ) { case kAudioStreamPropertyPhysicalFormat: vlc_mutex_lock( &w->lock ); vlc_cond_signal( &w->cond ); vlc_mutex_unlock( &w->lock ); break; default: break; } return( err ); } /***************************************************************************** * AudioDeviceCallback: Callback triggered when the audio-device variable is changed *****************************************************************************/ static int AudioDeviceCallback( vlc_object_t *p_this, const char *psz_variable, vlc_value_t old_val, vlc_value_t new_val, void *param ) { aout_instance_t *p_aout = (aout_instance_t *)p_this; var_Set( p_aout->p_libvlc, "macosx-audio-device", new_val ); msg_Dbg( p_aout, "Set Device: %#x", new_val.i_int ); return aout_ChannelsRestart( p_this, psz_variable, old_val, new_val, param ); }