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|
/**
* @file audioengine_fmod.cpp
* @brief Implementation of LLAudioEngine class abstracting the audio support as a FMOD 3D implementation
*
* $LicenseInfo:firstyear=2002&license=viewerlgpl$
* Second Life Viewer Source Code
* Copyright (C) 2010, Linden Research, Inc.
*
* This library 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;
* version 2.1 of the License only.
*
* This library is distributed in the hope that it will be useful,
* but WITHOUT ANY WARRANTY; without even the implied warranty of
* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU
* Lesser General Public License for more details.
*
* You should have received a copy of the GNU Lesser General Public
* License along with this library; if not, write to the Free Software
* Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301 USA
*
* Linden Research, Inc., 945 Battery Street, San Francisco, CA 94111 USA
* $/LicenseInfo$
*/
#include "linden_common.h"
#include "llstreamingaudio.h"
#include "llstreamingaudio_fmod.h"
#include "llaudioengine_fmod.h"
#include "lllistener_fmod.h"
#include "llerror.h"
#include "llmath.h"
#include "llrand.h"
#include "fmod.h"
#include "fmod_errors.h"
#include "lldir.h"
#include "llapr.h"
#include "sound_ids.h"
extern "C" {
void * F_CALLBACKAPI windCallback(void *originalbuffer, void *newbuffer, int length, void* userdata);
}
LLAudioEngine_FMOD::LLAudioEngine_FMOD()
{
mInited = false;
mWindGen = NULL;
mWindDSP = NULL;
}
LLAudioEngine_FMOD::~LLAudioEngine_FMOD()
{
}
bool LLAudioEngine_FMOD::init(const S32 num_channels, void* userdata)
{
LLAudioEngine::init(num_channels, userdata);
// Reserve one extra channel for the http stream.
if (!FSOUND_SetMinHardwareChannels(num_channels + 1))
{
LL_WARNS("AppInit") << "FMOD::init[0](), error: " << FMOD_ErrorString(FSOUND_GetError()) << LL_ENDL;
}
LL_DEBUGS("AppInit") << "LLAudioEngine_FMOD::init() initializing FMOD" << LL_ENDL;
F32 version = FSOUND_GetVersion();
if (version < FMOD_VERSION)
{
LL_WARNS("AppInit") << "Error : You are using the wrong FMOD version (" << version
<< ")! You should be using FMOD " << FMOD_VERSION << LL_ENDL;
//return false;
}
U32 fmod_flags = 0x0;
#if LL_WINDOWS
// Windows needs to know which window is frontmost.
// This must be called before FSOUND_Init() per the FMOD docs.
// This could be used to let FMOD handle muting when we lose focus,
// but we don't actually want to do that because we want to distinguish
// between minimized and not-focused states.
if (!FSOUND_SetHWND(userdata))
{
LL_WARNS("AppInit") << "Error setting FMOD window: "
<< FMOD_ErrorString(FSOUND_GetError()) << LL_ENDL;
return false;
}
// Play audio when we don't have focus.
// (For example, IM client on top of us.)
// This means we also try to play audio when minimized,
// so we manually handle muting in that case. JC
fmod_flags |= FSOUND_INIT_GLOBALFOCUS;
#endif
#if LL_LINUX
// initialize the FMOD engine
// This is a hack to use only FMOD's basic FPU mixer
// when the LL_VALGRIND environmental variable is set,
// otherwise valgrind will fall over on FMOD's MMX detection
if (getenv("LL_VALGRIND")) /*Flawfinder: ignore*/
{
LL_INFOS("AppInit") << "Pacifying valgrind in FMOD init." << LL_ENDL;
FSOUND_SetMixer(FSOUND_MIXER_QUALITY_FPU);
}
// If we don't set an output method, Linux FMOD always
// decides on OSS and fails otherwise. So we'll manually
// try ESD, then OSS, then ALSA.
// Why this order? See SL-13250, but in short, OSS emulated
// on top of ALSA is ironically more reliable than raw ALSA.
// Ack, and ESD has more reliable failure modes - but has worse
// latency - than all of them, so wins for now.
bool audio_ok = false;
if (!audio_ok)
{
if (NULL == getenv("LL_BAD_FMOD_ESD")) /*Flawfinder: ignore*/
{
LL_DEBUGS("AppInit") << "Trying ESD audio output..." << LL_ENDL;
if(FSOUND_SetOutput(FSOUND_OUTPUT_ESD) &&
FSOUND_Init(44100, num_channels, fmod_flags))
{
LL_DEBUGS("AppInit") << "ESD audio output initialized OKAY"
<< LL_ENDL;
audio_ok = true;
} else {
LL_WARNS("AppInit") << "ESD audio output FAILED to initialize: "
<< FMOD_ErrorString(FSOUND_GetError()) << LL_ENDL;
}
} else {
LL_DEBUGS("AppInit") << "ESD audio output SKIPPED" << LL_ENDL;
}
}
if (!audio_ok)
{
if (NULL == getenv("LL_BAD_FMOD_OSS")) /*Flawfinder: ignore*/
{
LL_DEBUGS("AppInit") << "Trying OSS audio output..." << LL_ENDL;
if(FSOUND_SetOutput(FSOUND_OUTPUT_OSS) &&
FSOUND_Init(44100, num_channels, fmod_flags))
{
LL_DEBUGS("AppInit") << "OSS audio output initialized OKAY" << LL_ENDL;
audio_ok = true;
} else {
LL_WARNS("AppInit") << "OSS audio output FAILED to initialize: "
<< FMOD_ErrorString(FSOUND_GetError()) << LL_ENDL;
}
} else {
LL_DEBUGS("AppInit") << "OSS audio output SKIPPED" << LL_ENDL;
}
}
if (!audio_ok)
{
if (NULL == getenv("LL_BAD_FMOD_ALSA")) /*Flawfinder: ignore*/
{
LL_DEBUGS("AppInit") << "Trying ALSA audio output..." << LL_ENDL;
if(FSOUND_SetOutput(FSOUND_OUTPUT_ALSA) &&
FSOUND_Init(44100, num_channels, fmod_flags))
{
LL_DEBUGS("AppInit") << "ALSA audio output initialized OKAY" << LL_ENDL;
audio_ok = true;
} else {
LL_WARNS("AppInit") << "ALSA audio output FAILED to initialize: "
<< FMOD_ErrorString(FSOUND_GetError()) << LL_ENDL;
}
} else {
LL_DEBUGS("AppInit") << "OSS audio output SKIPPED" << LL_ENDL;
}
}
if (!audio_ok)
{
LL_WARNS("AppInit") << "Overall audio init failure." << LL_ENDL;
return false;
}
// On Linux, FMOD causes a SIGPIPE for some netstream error
// conditions (an FMOD bug); ignore SIGPIPE so it doesn't crash us.
// NOW FIXED in FMOD 3.x since 2006-10-01.
//signal(SIGPIPE, SIG_IGN);
// We're interested in logging which output method we
// ended up with, for QA purposes.
switch (FSOUND_GetOutput())
{
case FSOUND_OUTPUT_NOSOUND: LL_DEBUGS("AppInit") << "Audio output: NoSound" << LL_ENDL; break;
case FSOUND_OUTPUT_OSS: LL_DEBUGS("AppInit") << "Audio output: OSS" << LL_ENDL; break;
case FSOUND_OUTPUT_ESD: LL_DEBUGS("AppInit") << "Audio output: ESD" << LL_ENDL; break;
case FSOUND_OUTPUT_ALSA: LL_DEBUGS("AppInit") << "Audio output: ALSA" << LL_ENDL; break;
default: LL_INFOS("AppInit") << "Audio output: Unknown!" << LL_ENDL; break;
};
#else // LL_LINUX
// initialize the FMOD engine
if (!FSOUND_Init(44100, num_channels, fmod_flags))
{
LL_WARNS("AppInit") << "Error initializing FMOD: "
<< FMOD_ErrorString(FSOUND_GetError()) << LL_ENDL;
return false;
}
#endif
// set up our favourite FMOD-native streaming audio implementation if none has already been added
if (!getStreamingAudioImpl()) // no existing implementation added
setStreamingAudioImpl(new LLStreamingAudio_FMOD());
LL_DEBUGS("AppInit") << "LLAudioEngine_FMOD::init() FMOD initialized correctly" << LL_ENDL;
mInited = true;
return true;
}
std::string LLAudioEngine_FMOD::getDriverName(bool verbose)
{
if (verbose)
{
F32 version = FSOUND_GetVersion();
return llformat("FMOD version %f", version);
}
else
{
return "FMOD";
}
}
void LLAudioEngine_FMOD::allocateListener(void)
{
mListenerp = (LLListener *) new LLListener_FMOD();
if (!mListenerp)
{
llwarns << "Listener creation failed" << llendl;
}
}
void LLAudioEngine_FMOD::shutdown()
{
if (mWindDSP)
{
FSOUND_DSP_SetActive(mWindDSP,false);
FSOUND_DSP_Free(mWindDSP);
}
stopInternetStream();
LLAudioEngine::shutdown();
llinfos << "LLAudioEngine_FMOD::shutdown() closing FMOD" << llendl;
FSOUND_Close();
llinfos << "LLAudioEngine_FMOD::shutdown() done closing FMOD" << llendl;
delete mListenerp;
mListenerp = NULL;
}
LLAudioBuffer * LLAudioEngine_FMOD::createBuffer()
{
return new LLAudioBufferFMOD();
}
LLAudioChannel * LLAudioEngine_FMOD::createChannel()
{
return new LLAudioChannelFMOD();
}
bool LLAudioEngine_FMOD::initWind()
{
if (!mWindGen)
{
bool enable;
switch (FSOUND_GetMixer())
{
case FSOUND_MIXER_MMXP5:
case FSOUND_MIXER_MMXP6:
case FSOUND_MIXER_QUALITY_MMXP5:
case FSOUND_MIXER_QUALITY_MMXP6:
enable = (typeid(MIXBUFFERFORMAT) == typeid(S16));
break;
case FSOUND_MIXER_BLENDMODE:
enable = (typeid(MIXBUFFERFORMAT) == typeid(S32));
break;
case FSOUND_MIXER_QUALITY_FPU:
enable = (typeid(MIXBUFFERFORMAT) == typeid(F32));
break;
default:
// FSOUND_GetMixer() does not return a valid mixer type on Darwin
LL_INFOS("AppInit") << "Unknown FMOD mixer type, assuming default" << LL_ENDL;
enable = true;
break;
}
if (enable)
{
mWindGen = new LLWindGen<MIXBUFFERFORMAT>(FSOUND_GetOutputRate());
}
else
{
LL_WARNS("AppInit") << "Incompatible FMOD mixer type, wind noise disabled" << LL_ENDL;
}
}
mNextWindUpdate = 0.0;
if (mWindGen && !mWindDSP)
{
mWindDSP = FSOUND_DSP_Create(&windCallback, FSOUND_DSP_DEFAULTPRIORITY_CLEARUNIT + 20, mWindGen);
}
if (mWindDSP)
{
FSOUND_DSP_SetActive(mWindDSP, true);
return true;
}
return false;
}
void LLAudioEngine_FMOD::cleanupWind()
{
if (mWindDSP)
{
FSOUND_DSP_SetActive(mWindDSP, false);
FSOUND_DSP_Free(mWindDSP);
mWindDSP = NULL;
}
delete mWindGen;
mWindGen = NULL;
}
//-----------------------------------------------------------------------
void LLAudioEngine_FMOD::updateWind(LLVector3 wind_vec, F32 camera_height_above_water)
{
LLVector3 wind_pos;
F64 pitch;
F64 center_freq;
if (!mEnableWind)
{
return;
}
if (mWindUpdateTimer.checkExpirationAndReset(LL_WIND_UPDATE_INTERVAL))
{
// wind comes in as Linden coordinate (+X = forward, +Y = left, +Z = up)
// need to convert this to the conventional orientation DS3D and OpenAL use
// where +X = right, +Y = up, +Z = backwards
wind_vec.setVec(-wind_vec.mV[1], wind_vec.mV[2], -wind_vec.mV[0]);
// cerr << "Wind update" << endl;
pitch = 1.0 + mapWindVecToPitch(wind_vec);
center_freq = 80.0 * pow(pitch,2.5*(mapWindVecToGain(wind_vec)+1.0));
mWindGen->mTargetFreq = (F32)center_freq;
mWindGen->mTargetGain = (F32)mapWindVecToGain(wind_vec) * mMaxWindGain;
mWindGen->mTargetPanGainR = (F32)mapWindVecToPan(wind_vec);
}
}
/*
//-----------------------------------------------------------------------
void LLAudioEngine_FMOD::setSourceMinDistance(U16 source_num, F64 distance)
{
if (!mInited)
{
return;
}
if (mBuffer[source_num])
{
mMinDistance[source_num] = (F32) distance;
if (!FSOUND_Sample_SetMinMaxDistance(mBuffer[source_num],mMinDistance[source_num], mMaxDistance[source_num]))
{
llwarns << "FMOD::setSourceMinDistance(" << source_num << "), error: " << FMOD_ErrorString(FSOUND_GetError()) << llendl;
}
}
}
//-----------------------------------------------------------------------
void LLAudioEngine_FMOD::setSourceMaxDistance(U16 source_num, F64 distance)
{
if (!mInited)
{
return;
}
if (mBuffer[source_num])
{
mMaxDistance[source_num] = (F32) distance;
if (!FSOUND_Sample_SetMinMaxDistance(mBuffer[source_num],mMinDistance[source_num], mMaxDistance[source_num]))
{
llwarns << "FMOD::setSourceMaxDistance(" << source_num << "), error: " << FMOD_ErrorString(FSOUND_GetError()) << llendl;
}
}
}
//-----------------------------------------------------------------------
void LLAudioEngine_FMOD::get3DParams(S32 source_num, S32 *volume, S32 *freq, S32 *inside, S32 *outside, LLVector3 *orient, S32 *out_volume, F32 *min_dist, F32 *max_dist)
{
*volume = 0;
*freq = 0;
*inside = 0;
*outside = 0;
*orient = LLVector3::zero;
*out_volume = 0;
*min_dist = 0.f;
*max_dist = 0.f;
}
*/
//-----------------------------------------------------------------------
void LLAudioEngine_FMOD::setInternalGain(F32 gain)
{
if (!mInited)
{
return;
}
gain = llclamp( gain, 0.0f, 1.0f );
FSOUND_SetSFXMasterVolume( llround( 255.0f * gain ) );
LLStreamingAudioInterface *saimpl = getStreamingAudioImpl();
if ( saimpl )
{
// fmod likes its streaming audio channel gain re-asserted after
// master volume change.
saimpl->setGain(saimpl->getGain());
}
}
//
// LLAudioChannelFMOD implementation
//
LLAudioChannelFMOD::LLAudioChannelFMOD() : LLAudioChannel(), mChannelID(0), mLastSamplePos(0)
{
}
LLAudioChannelFMOD::~LLAudioChannelFMOD()
{
cleanup();
}
bool LLAudioChannelFMOD::updateBuffer()
{
if (LLAudioChannel::updateBuffer())
{
// Base class update returned true, which means that we need to actually
// set up the channel for a different buffer.
LLAudioBufferFMOD *bufferp = (LLAudioBufferFMOD *)mCurrentSourcep->getCurrentBuffer();
// Grab the FMOD sample associated with the buffer
FSOUND_SAMPLE *samplep = bufferp->getSample();
if (!samplep)
{
// This is bad, there should ALWAYS be a sample associated with a legit
// buffer.
llerrs << "No FMOD sample!" << llendl;
return false;
}
// Actually play the sound. Start it off paused so we can do all the necessary
// setup.
mChannelID = FSOUND_PlaySoundEx(FSOUND_FREE, samplep, FSOUND_DSP_GetSFXUnit(), true);
//llinfos << "Setting up channel " << std::hex << mChannelID << std::dec << llendl;
}
// If we have a source for the channel, we need to update its gain.
if (mCurrentSourcep)
{
// SJB: warnings can spam and hurt framerate, disabling
if (!FSOUND_SetVolume(mChannelID, llround(getSecondaryGain() * mCurrentSourcep->getGain() * 255.0f)))
{
// llwarns << "LLAudioChannelFMOD::updateBuffer error: " << FMOD_ErrorString(FSOUND_GetError()) << llendl;
}
if (!FSOUND_SetLoopMode(mChannelID, mCurrentSourcep->isLoop() ? FSOUND_LOOP_NORMAL : FSOUND_LOOP_OFF))
{
// llwarns << "Channel " << mChannelID << "Source ID: " << mCurrentSourcep->getID()
// << " at " << mCurrentSourcep->getPositionGlobal() << llendl;
// llwarns << "LLAudioChannelFMOD::updateBuffer error: " << FMOD_ErrorString(FSOUND_GetError()) << llendl;
}
}
return true;
}
void LLAudioChannelFMOD::update3DPosition()
{
if (!mChannelID)
{
// We're not actually a live channel (i.e., we're not playing back anything)
return;
}
LLAudioBufferFMOD *bufferp = (LLAudioBufferFMOD *)mCurrentBufferp;
if (!bufferp)
{
// We don't have a buffer associated with us (should really have been picked up
// by the above if.
return;
}
if (mCurrentSourcep->isAmbient())
{
// Ambient sound, don't need to do any positional updates.
bufferp->set3DMode(false);
}
else
{
// Localized sound. Update the position and velocity of the sound.
bufferp->set3DMode(true);
LLVector3 float_pos;
float_pos.setVec(mCurrentSourcep->getPositionGlobal());
if (!FSOUND_3D_SetAttributes(mChannelID, float_pos.mV, mCurrentSourcep->getVelocity().mV))
{
LL_DEBUGS("FMOD") << "LLAudioChannelFMOD::update3DPosition error: " << FMOD_ErrorString(FSOUND_GetError()) << LL_ENDL;
}
}
}
void LLAudioChannelFMOD::updateLoop()
{
if (!mChannelID)
{
// May want to clear up the loop/sample counters.
return;
}
//
// Hack: We keep track of whether we looped or not by seeing when the
// sample position looks like it's going backwards. Not reliable; may
// yield false negatives.
//
U32 cur_pos = FSOUND_GetCurrentPosition(mChannelID);
if (cur_pos < (U32)mLastSamplePos)
{
mLoopedThisFrame = true;
}
mLastSamplePos = cur_pos;
}
void LLAudioChannelFMOD::cleanup()
{
if (!mChannelID)
{
//llinfos << "Aborting cleanup with no channelID." << llendl;
return;
}
//llinfos << "Cleaning up channel: " << mChannelID << llendl;
if (!FSOUND_StopSound(mChannelID))
{
LL_DEBUGS("FMOD") << "LLAudioChannelFMOD::cleanup error: " << FMOD_ErrorString(FSOUND_GetError()) << llendl;
}
mCurrentBufferp = NULL;
mChannelID = 0;
}
void LLAudioChannelFMOD::play()
{
if (!mChannelID)
{
llwarns << "Playing without a channelID, aborting" << llendl;
return;
}
if (!FSOUND_SetPaused(mChannelID, false))
{
llwarns << "LLAudioChannelFMOD::play error: " << FMOD_ErrorString(FSOUND_GetError()) << llendl;
}
getSource()->setPlayedOnce(true);
}
void LLAudioChannelFMOD::playSynced(LLAudioChannel *channelp)
{
LLAudioChannelFMOD *fmod_channelp = (LLAudioChannelFMOD*)channelp;
if (!(fmod_channelp->mChannelID && mChannelID))
{
// Don't have channels allocated to both the master and the slave
return;
}
U32 position = FSOUND_GetCurrentPosition(fmod_channelp->mChannelID) % mCurrentBufferp->getLength();
// Try to match the position of our sync master
if (!FSOUND_SetCurrentPosition(mChannelID, position))
{
llwarns << "LLAudioChannelFMOD::playSynced unable to set current position" << llendl;
}
// Start us playing
play();
}
bool LLAudioChannelFMOD::isPlaying()
{
if (!mChannelID)
{
return false;
}
return FSOUND_IsPlaying(mChannelID) && (!FSOUND_GetPaused(mChannelID));
}
//
// LLAudioBufferFMOD implementation
//
LLAudioBufferFMOD::LLAudioBufferFMOD()
{
mSamplep = NULL;
}
LLAudioBufferFMOD::~LLAudioBufferFMOD()
{
if (mSamplep)
{
// Clean up the associated FMOD sample if it exists.
FSOUND_Sample_Free(mSamplep);
mSamplep = NULL;
}
}
bool LLAudioBufferFMOD::loadWAV(const std::string& filename)
{
// Try to open a wav file from disk. This will eventually go away, as we don't
// really want to block doing this.
if (filename.empty())
{
// invalid filename, abort.
return false;
}
if (!LLAPRFile::isExist(filename, NULL, LL_APR_RPB))
{
// File not found, abort.
return false;
}
if (mSamplep)
{
// If there's already something loaded in this buffer, clean it up.
FSOUND_Sample_Free(mSamplep);
mSamplep = NULL;
}
// Load up the wav file into an fmod sample
#if LL_WINDOWS
// MikeS. - Loading the sound file manually and then handing it over to FMOD,
// since FMOD uses posix IO internally,
// which doesn't work with unicode file paths.
LLFILE* sound_file = LLFile::fopen(filename,"rb"); /* Flawfinder: ignore */
if (sound_file)
{
fseek(sound_file,0,SEEK_END);
U32 file_length = ftell(sound_file); //Find the length of the file by seeking to the end and getting the offset
size_t read_count;
fseek(sound_file,0,SEEK_SET); //Seek back to the beginning
char* buffer = new char[file_length];
llassert(buffer);
read_count = fread((void*)buffer,file_length,1,sound_file);//Load it..
if(ferror(sound_file)==0 && (read_count == 1)){//No read error, and we got 1 chunk of our size...
unsigned int mode_flags = FSOUND_LOOP_NORMAL | FSOUND_LOADMEMORY;
//FSOUND_16BITS | FSOUND_MONO | FSOUND_LOADMEMORY | FSOUND_LOOP_NORMAL;
mSamplep = FSOUND_Sample_Load(FSOUND_UNMANAGED, buffer, mode_flags , 0, file_length);
}
delete[] buffer;
fclose(sound_file);
}
#else
mSamplep = FSOUND_Sample_Load(FSOUND_UNMANAGED, filename.c_str(), FSOUND_LOOP_NORMAL, 0, 0);
#endif
if (!mSamplep)
{
// We failed to load the file for some reason.
llwarns << "Could not load data '" << filename << "': "
<< FMOD_ErrorString(FSOUND_GetError()) << llendl;
//
// If we EVER want to load wav files provided by end users, we need
// to rethink this!
//
// file is probably corrupt - remove it.
LLFile::remove(filename);
return false;
}
// Everything went well, return true
return true;
}
U32 LLAudioBufferFMOD::getLength()
{
if (!mSamplep)
{
return 0;
}
return FSOUND_Sample_GetLength(mSamplep);
}
void LLAudioBufferFMOD::set3DMode(bool use3d)
{
U16 current_mode = FSOUND_Sample_GetMode(mSamplep);
if (use3d)
{
if (!FSOUND_Sample_SetMode(mSamplep, (current_mode & (~FSOUND_2D))))
{
llwarns << "LLAudioBufferFMOD::set3DMode error: " << FMOD_ErrorString(FSOUND_GetError()) << llendl;
}
}
else
{
if (!FSOUND_Sample_SetMode(mSamplep, current_mode | FSOUND_2D))
{
llwarns << "LLAudioBufferFMOD::set3DMode error: " << FMOD_ErrorString(FSOUND_GetError()) << llendl;
}
}
}
void * F_CALLBACKAPI windCallback(void *originalbuffer, void *newbuffer, int length, void* userdata)
{
// originalbuffer = fmod's original mixbuffer.
// newbuffer = the buffer passed from the previous DSP unit.
// length = length in samples at this mix time.
// userdata = user parameter passed through in FSOUND_DSP_Create.
LLWindGen<LLAudioEngine_FMOD::MIXBUFFERFORMAT> *windgen =
(LLWindGen<LLAudioEngine_FMOD::MIXBUFFERFORMAT> *)userdata;
newbuffer = windgen->windGenerate((LLAudioEngine_FMOD::MIXBUFFERFORMAT *)newbuffer, length);
return newbuffer;
}
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