/** * @file llaudiodecodemgr.cpp * * $LicenseInfo:firstyear=2003&license=viewergpl$ * * Copyright (c) 2003-2009, Linden Research, Inc. * * Second Life Viewer Source Code * The source code in this file ("Source Code") is provided by Linden Lab * to you under the terms of the GNU General Public License, version 2.0 * ("GPL"), unless you have obtained a separate licensing agreement * ("Other License"), formally executed by you and Linden Lab. Terms of * the GPL can be found in doc/GPL-license.txt in this distribution, or * online at http://secondlifegrid.net/programs/open_source/licensing/gplv2 * * There are special exceptions to the terms and conditions of the GPL as * it is applied to this Source Code. View the full text of the exception * in the file doc/FLOSS-exception.txt in this software distribution, or * online at * http://secondlifegrid.net/programs/open_source/licensing/flossexception * * By copying, modifying or distributing this software, you acknowledge * that you have read and understood your obligations described above, * and agree to abide by those obligations. * * ALL LINDEN LAB SOURCE CODE IS PROVIDED "AS IS." LINDEN LAB MAKES NO * WARRANTIES, EXPRESS, IMPLIED OR OTHERWISE, REGARDING ITS ACCURACY, * COMPLETENESS OR PERFORMANCE. * $/LicenseInfo$ */ #include "linden_common.h" #include "llaudiodecodemgr.h" #include "llaudioengine.h" #include "lllfsthread.h" #include "llvfile.h" #include "llstring.h" #include "lldir.h" #include "llendianswizzle.h" #include "llassetstorage.h" #include "llrefcount.h" #include "llvorbisencode.h" #include "vorbis/codec.h" #include "vorbis/vorbisfile.h" extern LLAudioEngine *gAudiop; LLAudioDecodeMgr *gAudioDecodeMgrp = NULL; static const S32 WAV_HEADER_SIZE = 44; ////////////////////////////////////////////////////////////////////////////// class LLVorbisDecodeState : public LLRefCount { public: class WriteResponder : public LLLFSThread::Responder { public: WriteResponder(LLVorbisDecodeState* decoder) : mDecoder(decoder) {} ~WriteResponder() {} void completed(S32 bytes) { mDecoder->ioComplete(bytes); } LLPointer mDecoder; }; LLVorbisDecodeState(const LLUUID &uuid, const std::string &out_filename); BOOL initDecode(); BOOL decodeSection(); // Return TRUE if done. BOOL finishDecode(); void flushBadFile(); void ioComplete(S32 bytes) { mBytesRead = bytes; } BOOL isValid() const { return mValid; } BOOL isDone() const { return mDone; } const LLUUID &getUUID() const { return mUUID; } protected: virtual ~LLVorbisDecodeState(); BOOL mValid; BOOL mDone; LLAtomicS32 mBytesRead; LLUUID mUUID; std::vector mWAVBuffer; #if !defined(USE_WAV_VFILE) std::string mOutFilename; LLLFSThread::handle_t mFileHandle; #endif LLVFile *mInFilep; OggVorbis_File mVF; S32 mCurrentSection; }; size_t vfs_read(void *ptr, size_t size, size_t nmemb, void *datasource) { LLVFile *file = (LLVFile *)datasource; if (file->read((U8*)ptr, (S32)(size * nmemb))) /*Flawfinder: ignore*/ { S32 read = file->getLastBytesRead(); return read / size; /*Flawfinder: ignore*/ } else { return 0; } } int vfs_seek(void *datasource, ogg_int64_t offset, int whence) { LLVFile *file = (LLVFile *)datasource; // vfs has 31-bit files if (offset > S32_MAX) { return -1; } S32 origin; switch (whence) { case SEEK_SET: origin = 0; break; case SEEK_END: origin = file->getSize(); break; case SEEK_CUR: origin = -1; break; default: llerrs << "Invalid whence argument to vfs_seek" << llendl; return -1; } if (file->seek((S32)offset, origin)) { return 0; } else { return -1; } } int vfs_close (void *datasource) { LLVFile *file = (LLVFile *)datasource; delete file; return 0; } long vfs_tell (void *datasource) { LLVFile *file = (LLVFile *)datasource; return file->tell(); } LLVorbisDecodeState::LLVorbisDecodeState(const LLUUID &uuid, const std::string &out_filename) { mDone = FALSE; mValid = FALSE; mBytesRead = -1; mUUID = uuid; mInFilep = NULL; mCurrentSection = 0; #if !defined(USE_WAV_VFILE) mOutFilename = out_filename; mFileHandle = LLLFSThread::nullHandle(); #endif // No default value for mVF, it's an ogg structure? // Hey, let's zero it anyway, for predictability. memset(&mVF, 0, sizeof(mVF)); } LLVorbisDecodeState::~LLVorbisDecodeState() { if (!mDone) { delete mInFilep; mInFilep = NULL; } } BOOL LLVorbisDecodeState::initDecode() { ov_callbacks vfs_callbacks; vfs_callbacks.read_func = vfs_read; vfs_callbacks.seek_func = vfs_seek; vfs_callbacks.close_func = vfs_close; vfs_callbacks.tell_func = vfs_tell; //llinfos << "Initing decode from vfile: " << mUUID << llendl; mInFilep = new LLVFile(gVFS, mUUID, LLAssetType::AT_SOUND); if (!mInFilep || !mInFilep->getSize()) { llwarns << "unable to open vorbis source vfile for reading" << llendl; delete mInFilep; mInFilep = NULL; return FALSE; } int r = ov_open_callbacks(mInFilep, &mVF, NULL, 0, vfs_callbacks); if(r < 0) { llwarns << r << " Input to vorbis decode does not appear to be an Ogg bitstream: " << mUUID << llendl; return(FALSE); } S32 sample_count = ov_pcm_total(&mVF, -1); size_t size_guess = (size_t)sample_count; vorbis_info* vi = ov_info(&mVF, -1); size_guess *= (vi? vi->channels : 1); size_guess *= 2; size_guess += 2048; bool abort_decode = false; if (vi) { if( vi->channels < 1 || vi->channels > LLVORBIS_CLIP_MAX_CHANNELS ) { abort_decode = true; llwarns << "Bad channel count: " << vi->channels << llendl; } } else // !vi { abort_decode = true; llwarns << "No default bitstream found" << llendl; } if( (size_t)sample_count > LLVORBIS_CLIP_REJECT_SAMPLES || (size_t)sample_count <= 0) { abort_decode = true; llwarns << "Illegal sample count: " << sample_count << llendl; } if( size_guess > LLVORBIS_CLIP_REJECT_SIZE || size_guess < 0) { abort_decode = true; llwarns << "Illegal sample size: " << size_guess << llendl; } if( abort_decode ) { llwarns << "Canceling initDecode. Bad asset: " << mUUID << llendl; vorbis_comment* comment = ov_comment(&mVF,-1); if (comment && comment->vendor) { llwarns << "Bad asset encoded by: " << comment->vendor << llendl; } delete mInFilep; mInFilep = NULL; return FALSE; } mWAVBuffer.reserve(size_guess); mWAVBuffer.resize(WAV_HEADER_SIZE); { // write the .wav format header //"RIFF" mWAVBuffer[0] = 0x52; mWAVBuffer[1] = 0x49; mWAVBuffer[2] = 0x46; mWAVBuffer[3] = 0x46; // length = datalen + 36 (to be filled in later) mWAVBuffer[4] = 0x00; mWAVBuffer[5] = 0x00; mWAVBuffer[6] = 0x00; mWAVBuffer[7] = 0x00; //"WAVE" mWAVBuffer[8] = 0x57; mWAVBuffer[9] = 0x41; mWAVBuffer[10] = 0x56; mWAVBuffer[11] = 0x45; // "fmt " mWAVBuffer[12] = 0x66; mWAVBuffer[13] = 0x6D; mWAVBuffer[14] = 0x74; mWAVBuffer[15] = 0x20; // chunk size = 16 mWAVBuffer[16] = 0x10; mWAVBuffer[17] = 0x00; mWAVBuffer[18] = 0x00; mWAVBuffer[19] = 0x00; // format (1 = PCM) mWAVBuffer[20] = 0x01; mWAVBuffer[21] = 0x00; // number of channels mWAVBuffer[22] = 0x01; mWAVBuffer[23] = 0x00; // samples per second mWAVBuffer[24] = 0x44; mWAVBuffer[25] = 0xAC; mWAVBuffer[26] = 0x00; mWAVBuffer[27] = 0x00; // average bytes per second mWAVBuffer[28] = 0x88; mWAVBuffer[29] = 0x58; mWAVBuffer[30] = 0x01; mWAVBuffer[31] = 0x00; // bytes to output at a single time mWAVBuffer[32] = 0x02; mWAVBuffer[33] = 0x00; // 16 bits per sample mWAVBuffer[34] = 0x10; mWAVBuffer[35] = 0x00; // "data" mWAVBuffer[36] = 0x64; mWAVBuffer[37] = 0x61; mWAVBuffer[38] = 0x74; mWAVBuffer[39] = 0x61; // these are the length of the data chunk, to be filled in later mWAVBuffer[40] = 0x00; mWAVBuffer[41] = 0x00; mWAVBuffer[42] = 0x00; mWAVBuffer[43] = 0x00; } //{ //char **ptr=ov_comment(&mVF,-1)->user_comments; // vorbis_info *vi=ov_info(&vf,-1); //while(*ptr){ // fprintf(stderr,"%s\n",*ptr); // ++ptr; //} // fprintf(stderr,"\nBitstream is %d channel, %ldHz\n",vi->channels,vi->rate); // fprintf(stderr,"\nDecoded length: %ld samples\n", (long)ov_pcm_total(&vf,-1)); // fprintf(stderr,"Encoded by: %s\n\n",ov_comment(&vf,-1)->vendor); //} return TRUE; } BOOL LLVorbisDecodeState::decodeSection() { if (!mInFilep) { llwarns << "No VFS file to decode in vorbis!" << llendl; return TRUE; } if (mDone) { // llwarns << "Already done with decode, aborting!" << llendl; return TRUE; } char pcmout[4096]; /*Flawfinder: ignore*/ BOOL eof = FALSE; long ret=ov_read(&mVF, pcmout, sizeof(pcmout), 0, 2, 1, &mCurrentSection); if (ret == 0) { /* EOF */ eof = TRUE; mDone = TRUE; mValid = TRUE; // llinfos << "Vorbis EOF" << llendl; } else if (ret < 0) { /* error in the stream. Not a problem, just reporting it in case we (the app) cares. In this case, we don't. */ llwarns << "BAD vorbis decode in decodeSection." << llendl; mValid = FALSE; mDone = TRUE; // We're done, return TRUE. return TRUE; } else { // llinfos << "Vorbis read " << ret << "bytes" << llendl; /* we don't bother dealing with sample rate changes, etc, but. you'll have to*/ std::copy(pcmout, pcmout+ret, std::back_inserter(mWAVBuffer)); } return eof; } BOOL LLVorbisDecodeState::finishDecode() { if (!isValid()) { llwarns << "Bogus vorbis decode state for " << getUUID() << ", aborting!" << llendl; return TRUE; // We've finished } #if !defined(USE_WAV_VFILE) if (mFileHandle == LLLFSThread::nullHandle()) #endif { ov_clear(&mVF); // write "data" chunk length, in little-endian format S32 data_length = mWAVBuffer.size() - WAV_HEADER_SIZE; mWAVBuffer[40] = (data_length) & 0x000000FF; mWAVBuffer[41] = (data_length >> 8) & 0x000000FF; mWAVBuffer[42] = (data_length >> 16) & 0x000000FF; mWAVBuffer[43] = (data_length >> 24) & 0x000000FF; // write overall "RIFF" length, in little-endian format data_length += 36; mWAVBuffer[4] = (data_length) & 0x000000FF; mWAVBuffer[5] = (data_length >> 8) & 0x000000FF; mWAVBuffer[6] = (data_length >> 16) & 0x000000FF; mWAVBuffer[7] = (data_length >> 24) & 0x000000FF; // // FUDGECAKES!!! Vorbis encode/decode messes up loop point transitions (pop) // do a cheap-and-cheesy crossfade // { S16 *samplep; S32 i; S32 fade_length; char pcmout[4096]; /*Flawfinder: ignore*/ fade_length = llmin((S32)128,(S32)(data_length-36)/8); if((S32)mWAVBuffer.size() >= (WAV_HEADER_SIZE + 2* fade_length)) { memcpy(pcmout, &mWAVBuffer[WAV_HEADER_SIZE], (2 * fade_length)); /*Flawfinder: ignore*/ } llendianswizzle(&pcmout, 2, fade_length); samplep = (S16 *)pcmout; for (i = 0 ;i < fade_length; i++) { *samplep = llfloor((F32)*samplep * ((F32)i/(F32)fade_length)); samplep++; } llendianswizzle(&pcmout, 2, fade_length); if((WAV_HEADER_SIZE+(2 * fade_length)) < (S32)mWAVBuffer.size()) { memcpy(&mWAVBuffer[WAV_HEADER_SIZE], pcmout, (2 * fade_length)); /*Flawfinder: ignore*/ } S32 near_end = mWAVBuffer.size() - (2 * fade_length); if ((S32)mWAVBuffer.size() >= ( near_end + 2* fade_length)) { memcpy(pcmout, &mWAVBuffer[near_end], (2 * fade_length)); /*Flawfinder: ignore*/ } llendianswizzle(&pcmout, 2, fade_length); samplep = (S16 *)pcmout; for (i = fade_length-1 ; i >= 0; i--) { *samplep = llfloor((F32)*samplep * ((F32)i/(F32)fade_length)); samplep++; } llendianswizzle(&pcmout, 2, fade_length); if (near_end + (2 * fade_length) < (S32)mWAVBuffer.size()) { memcpy(&mWAVBuffer[near_end], pcmout, (2 * fade_length));/*Flawfinder: ignore*/ } } if (36 == data_length) { llwarns << "BAD Vorbis decode in finishDecode!" << llendl; mValid = FALSE; return TRUE; // we've finished } #if !defined(USE_WAV_VFILE) mBytesRead = -1; mFileHandle = LLLFSThread::sLocal->write(mOutFilename, &mWAVBuffer[0], 0, mWAVBuffer.size(), new WriteResponder(this)); #endif } if (mFileHandle != LLLFSThread::nullHandle()) { if (mBytesRead >= 0) { if (mBytesRead == 0) { llwarns << "Unable to write file in LLVorbisDecodeState::finishDecode" << llendl; mValid = FALSE; return TRUE; // we've finished } } else { return FALSE; // not done } } mDone = TRUE; #if defined(USE_WAV_VFILE) // write the data. LLVFile output(gVFS, mUUID, LLAssetType::AT_SOUND_WAV); output.write(&mWAVBuffer[0], mWAVBuffer.size()); #endif //llinfos << "Finished decode for " << getUUID() << llendl; return TRUE; } void LLVorbisDecodeState::flushBadFile() { if (mInFilep) { llwarns << "Flushing bad vorbis file from VFS for " << mUUID << llendl; mInFilep->remove(); } } ////////////////////////////////////////////////////////////////////////////// class LLAudioDecodeMgr::Impl { friend class LLAudioDecodeMgr; public: Impl() {}; ~Impl() {}; void processQueue(const F32 num_secs = 0.005); protected: LLLinkedQueue mDecodeQueue; LLPointer mCurrentDecodep; }; void LLAudioDecodeMgr::Impl::processQueue(const F32 num_secs) { LLUUID uuid; LLTimer decode_timer; BOOL done = FALSE; while (!done) { if (mCurrentDecodep) { BOOL res; // Decode in a loop until we're done or have run out of time. while(!(res = mCurrentDecodep->decodeSection()) && (decode_timer.getElapsedTimeF32() < num_secs)) { // decodeSection does all of the work above } if (mCurrentDecodep->isDone() && !mCurrentDecodep->isValid()) { // We had an error when decoding, abort. llwarns << mCurrentDecodep->getUUID() << " has invalid vorbis data, aborting decode" << llendl; mCurrentDecodep->flushBadFile(); LLAudioData *adp = gAudiop->getAudioData(mCurrentDecodep->getUUID()); adp->setHasValidData(FALSE); mCurrentDecodep = NULL; done = TRUE; } if (!res) { // We've used up out time slice, bail... done = TRUE; } else if (mCurrentDecodep) { if (mCurrentDecodep->finishDecode()) { // We finished! if (mCurrentDecodep->isValid() && mCurrentDecodep->isDone()) { LLAudioData *adp = gAudiop->getAudioData(mCurrentDecodep->getUUID()); adp->setHasDecodedData(TRUE); adp->setHasValidData(TRUE); // At this point, we could see if anyone needs this sound immediately, but // I'm not sure that there's a reason to - we need to poll all of the playing // sounds anyway. //llinfos << "Finished the vorbis decode, now what?" << llendl; } else { llinfos << "Vorbis decode failed!!!" << llendl; } mCurrentDecodep = NULL; } done = TRUE; // done for now } } if (!done) { if (!mDecodeQueue.getLength()) { // Nothing else on the queue. done = TRUE; } else { LLUUID uuid; mDecodeQueue.pop(uuid); if (gAudiop->hasDecodedFile(uuid)) { // This file has already been decoded, don't decode it again. continue; } lldebugs << "Decoding " << uuid << " from audio queue!" << llendl; std::string uuid_str; std::string d_path; LLTimer timer; timer.reset(); uuid.toString(uuid_str); d_path = gDirUtilp->getExpandedFilename(LL_PATH_CACHE,uuid_str) + ".dsf"; mCurrentDecodep = new LLVorbisDecodeState(uuid, d_path); if (!mCurrentDecodep->initDecode()) { mCurrentDecodep = NULL; } } } } } ////////////////////////////////////////////////////////////////////////////// LLAudioDecodeMgr::LLAudioDecodeMgr() { mImpl = new Impl; } LLAudioDecodeMgr::~LLAudioDecodeMgr() { delete mImpl; } void LLAudioDecodeMgr::processQueue(const F32 num_secs) { mImpl->processQueue(num_secs); } BOOL LLAudioDecodeMgr::addDecodeRequest(const LLUUID &uuid) { if (gAudiop->hasDecodedFile(uuid)) { // Already have a decoded version, don't need to decode it. return TRUE; } if (gAssetStorage->hasLocalAsset(uuid, LLAssetType::AT_SOUND)) { // Just put it on the decode queue. mImpl->mDecodeQueue.push(uuid); return TRUE; } return FALSE; }