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|
/**
* @file lltexturefetch.cpp
* @brief Object which fetches textures from the cache and/or network
*
* $LicenseInfo:firstyear=2000&license=viewergpl$
*
* Copyright (c) 2000-2009, 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 "llviewerprecompiledheaders.h"
#include <iostream>
#include "llstl.h"
#include "lltexturefetch.h"
#include "llcurl.h"
#include "lldir.h"
#include "llhttpclient.h"
#include "llhttpstatuscodes.h"
#include "llimage.h"
#include "llimagej2c.h"
#include "llimageworker.h"
#include "llworkerthread.h"
#include "message.h"
#include "llagent.h"
#include "lltexturecache.h"
#include "llviewercontrol.h"
#include "llviewertexturelist.h"
#include "llviewertexture.h"
#include "llviewerregion.h"
#include "llworld.h"
//////////////////////////////////////////////////////////////////////////////
class LLTextureFetchWorker : public LLWorkerClass
{
friend class LLTextureFetch;
friend class HTTPGetResponder;
private:
class CacheReadResponder : public LLTextureCache::ReadResponder
{
public:
CacheReadResponder(LLTextureFetch* fetcher, const LLUUID& id, LLImageFormatted* image)
: mFetcher(fetcher), mID(id)
{
setImage(image);
}
virtual void completed(bool success)
{
LLTextureFetchWorker* worker = mFetcher->getWorker(mID);
if (worker)
{
worker->callbackCacheRead(success, mFormattedImage, mImageSize, mImageLocal);
}
}
private:
LLTextureFetch* mFetcher;
LLUUID mID;
};
class CacheWriteResponder : public LLTextureCache::WriteResponder
{
public:
CacheWriteResponder(LLTextureFetch* fetcher, const LLUUID& id)
: mFetcher(fetcher), mID(id)
{
}
virtual void completed(bool success)
{
LLTextureFetchWorker* worker = mFetcher->getWorker(mID);
if (worker)
{
worker->callbackCacheWrite(success);
}
}
private:
LLTextureFetch* mFetcher;
LLUUID mID;
};
class DecodeResponder : public LLImageDecodeThread::Responder
{
public:
DecodeResponder(LLTextureFetch* fetcher, const LLUUID& id, LLTextureFetchWorker* worker)
: mFetcher(fetcher), mID(id), mWorker(worker)
{
}
virtual void completed(bool success, LLImageRaw* raw, LLImageRaw* aux)
{
LLTextureFetchWorker* worker = mFetcher->getWorker(mID);
if (worker)
{
worker->callbackDecoded(success, raw, aux);
}
}
private:
LLTextureFetch* mFetcher;
LLUUID mID;
LLTextureFetchWorker* mWorker; // debug only (may get deleted from under us, use mFetcher/mID)
};
struct Compare
{
// lhs < rhs
bool operator()(const LLTextureFetchWorker* lhs, const LLTextureFetchWorker* rhs) const
{
// greater priority is "less"
const F32 lpriority = lhs->mImagePriority;
const F32 rpriority = rhs->mImagePriority;
if (lpriority > rpriority) // higher priority
return true;
else if (lpriority < rpriority)
return false;
else
return lhs < rhs;
}
};
public:
/*virtual*/ bool doWork(S32 param); // Called from LLWorkerThread::processRequest()
/*virtual*/ void finishWork(S32 param, bool completed); // called from finishRequest() (WORK THREAD)
/*virtual*/ bool deleteOK(); // called from update() (WORK THREAD)
~LLTextureFetchWorker();
void relese() { --mActiveCount; }
void callbackHttpGet(const LLChannelDescriptors& channels,
const LLIOPipe::buffer_ptr_t& buffer,
bool partial, bool success);
void callbackCacheRead(bool success, LLImageFormatted* image,
S32 imagesize, BOOL islocal);
void callbackCacheWrite(bool success);
void callbackDecoded(bool success, LLImageRaw* raw, LLImageRaw* aux);
void setGetStatus(U32 status, const std::string& reason)
{
LLMutexLock lock(&mWorkMutex);
mGetStatus = status;
mGetReason = reason;
}
void setCanUseHTTP(bool can_use_http) {mCanUseHTTP = can_use_http;}
bool getCanUseHTTP()const {return mCanUseHTTP ;}
protected:
LLTextureFetchWorker(LLTextureFetch* fetcher, const std::string& url, const LLUUID& id, const LLHost& host,
F32 priority, S32 discard, S32 size);
private:
/*virtual*/ void startWork(S32 param); // called from addWork() (MAIN THREAD)
/*virtual*/ void endWork(S32 param, bool aborted); // called from doWork() (MAIN THREAD)
void resetFormattedData();
void setImagePriority(F32 priority);
void setDesiredDiscard(S32 discard, S32 size);
bool insertPacket(S32 index, U8* data, S32 size);
void clearPackets();
void setupPacketData();
U32 calcWorkPriority();
void removeFromCache();
bool processSimulatorPackets();
bool writeToCacheComplete();
void lockWorkMutex() { mWorkMutex.lock(); }
void unlockWorkMutex() { mWorkMutex.unlock(); }
private:
enum e_state // mState
{
// NOTE: Affects LLTextureBar::draw in lltextureview.cpp (debug hack)
INVALID = 0,
INIT,
LOAD_FROM_TEXTURE_CACHE,
CACHE_POST,
LOAD_FROM_NETWORK,
LOAD_FROM_SIMULATOR,
SEND_HTTP_REQ,
WAIT_HTTP_REQ,
DECODE_IMAGE,
DECODE_IMAGE_UPDATE,
WRITE_TO_CACHE,
WAIT_ON_WRITE,
DONE
};
enum e_request_state // mSentRequest
{
UNSENT = 0,
QUEUED = 1,
SENT_SIM = 2
};
enum e_write_to_cache_state //mWriteToCacheState
{
NOT_WRITE = 0,
CAN_WRITE = 1,
SHOULD_WRITE = 2
};
static const char* sStateDescs[];
e_state mState;
e_write_to_cache_state mWriteToCacheState;
LLTextureFetch* mFetcher;
LLPointer<LLImageFormatted> mFormattedImage;
LLPointer<LLImageRaw> mRawImage;
LLPointer<LLImageRaw> mAuxImage;
LLUUID mID;
LLHost mHost;
std::string mUrl;
U8 mType;
F32 mImagePriority;
U32 mWorkPriority;
F32 mRequestedPriority;
S32 mDesiredDiscard;
S32 mSimRequestedDiscard;
S32 mRequestedDiscard;
S32 mLoadedDiscard;
S32 mDecodedDiscard;
LLFrameTimer mRequestedTimer;
LLFrameTimer mFetchTimer;
LLTextureCache::handle_t mCacheReadHandle;
LLTextureCache::handle_t mCacheWriteHandle;
U8* mBuffer;
S32 mBufferSize;
S32 mRequestedSize;
S32 mDesiredSize;
S32 mFileSize;
S32 mCachedSize;
e_request_state mSentRequest;
handle_t mDecodeHandle;
BOOL mLoaded;
BOOL mDecoded;
BOOL mWritten;
BOOL mNeedsAux;
BOOL mHaveAllData;
BOOL mInLocalCache;
bool mCanUseHTTP ;
bool mCanUseNET ; //can get from asset server.
S32 mHTTPFailCount;
S32 mRetryAttempt;
S32 mActiveCount;
U32 mGetStatus;
std::string mGetReason;
// Work Data
LLMutex mWorkMutex;
struct PacketData
{
PacketData(U8* data, S32 size) { mData = data; mSize = size; }
~PacketData() { clearData(); }
void clearData() { delete[] mData; mData = NULL; }
U8* mData;
U32 mSize;
};
std::vector<PacketData*> mPackets;
S32 mFirstPacket;
S32 mLastPacket;
U16 mTotalPackets;
U8 mImageCodec;
};
//////////////////////////////////////////////////////////////////////////////
class HTTPGetResponder : public LLCurl::Responder
{
LOG_CLASS(HTTPGetResponder);
public:
HTTPGetResponder(LLTextureFetch* fetcher, const LLUUID& id, U64 startTime, S32 requestedSize, U32 offset, bool redir)
: mFetcher(fetcher), mID(id), mStartTime(startTime), mRequestedSize(requestedSize), mOffset(offset), mFollowRedir(redir)
{
}
~HTTPGetResponder()
{
}
virtual void completedRaw(U32 status, const std::string& reason,
const LLChannelDescriptors& channels,
const LLIOPipe::buffer_ptr_t& buffer)
{
static LLCachedControl<bool> log_to_viewer_log(gSavedSettings,"LogTextureDownloadsToViewerLog");
static LLCachedControl<bool> log_to_sim(gSavedSettings,"LogTextureDownloadsToSimulator");
if (log_to_viewer_log || log_to_sim)
{
mFetcher->mTextureInfo.setRequestStartTime(mID, mStartTime);
U64 timeNow = LLTimer::getTotalTime();
mFetcher->mTextureInfo.setRequestType(mID, LLTextureInfoDetails::REQUEST_TYPE_HTTP);
mFetcher->mTextureInfo.setRequestSize(mID, mRequestedSize);
mFetcher->mTextureInfo.setRequestOffset(mID, mOffset);
mFetcher->mTextureInfo.setRequestCompleteTimeAndLog(mID, timeNow);
}
lldebugs << "HTTP COMPLETE: " << mID << llendl;
LLTextureFetchWorker* worker = mFetcher->getWorker(mID);
if (worker)
{
bool success = false;
bool partial = false;
if (HTTP_OK <= status && status < HTTP_MULTIPLE_CHOICES)
{
success = true;
if (HTTP_PARTIAL_CONTENT == status) // partial information
{
partial = true;
}
}
if (!success)
{
worker->setGetStatus(status, reason);
// llwarns << "CURL GET FAILED, status:" << status << " reason:" << reason << llendl;
}
mFetcher->removeFromHTTPQueue(mID);
worker->callbackHttpGet(channels, buffer, partial, success);
}
else
{
mFetcher->removeFromHTTPQueue(mID);
llwarns << "Worker not found: " << mID << llendl;
}
}
virtual bool followRedir()
{
return mFollowRedir;
}
private:
LLTextureFetch* mFetcher;
LLUUID mID;
U64 mStartTime;
S32 mRequestedSize;
U32 mOffset;
bool mFollowRedir;
};
//////////////////////////////////////////////////////////////////////////////
//static
const char* LLTextureFetchWorker::sStateDescs[] = {
"INVALID",
"INIT",
"LOAD_FROM_TEXTURE_CACHE",
"CACHE_POST",
"LOAD_FROM_NETWORK",
"LOAD_FROM_SIMULATOR",
"SEND_HTTP_REQ",
"WAIT_HTTP_REQ",
"DECODE_IMAGE",
"DECODE_IMAGE_UPDATE",
"WRITE_TO_CACHE",
"WAIT_ON_WRITE",
"DONE",
};
// called from MAIN THREAD
LLTextureFetchWorker::LLTextureFetchWorker(LLTextureFetch* fetcher,
const std::string& url, // Optional URL
const LLUUID& id, // Image UUID
const LLHost& host, // Simulator host
F32 priority, // Priority
S32 discard, // Desired discard
S32 size) // Desired size
: LLWorkerClass(fetcher, "TextureFetch"),
mState(INIT),
mWriteToCacheState(NOT_WRITE),
mFetcher(fetcher),
mID(id),
mHost(host),
mUrl(url),
mImagePriority(priority),
mWorkPriority(0),
mRequestedPriority(0.f),
mDesiredDiscard(-1),
mSimRequestedDiscard(-1),
mRequestedDiscard(-1),
mLoadedDiscard(-1),
mDecodedDiscard(-1),
mCacheReadHandle(LLTextureCache::nullHandle()),
mCacheWriteHandle(LLTextureCache::nullHandle()),
mBuffer(NULL),
mBufferSize(0),
mRequestedSize(0),
mDesiredSize(TEXTURE_CACHE_ENTRY_SIZE),
mFileSize(0),
mCachedSize(0),
mLoaded(FALSE),
mSentRequest(UNSENT),
mDecodeHandle(0),
mDecoded(FALSE),
mWritten(FALSE),
mNeedsAux(FALSE),
mHaveAllData(FALSE),
mInLocalCache(FALSE),
mCanUseHTTP(true),
mHTTPFailCount(0),
mRetryAttempt(0),
mActiveCount(0),
mGetStatus(0),
mWorkMutex(NULL),
mFirstPacket(0),
mLastPacket(-1),
mTotalPackets(0),
mImageCodec(IMG_CODEC_INVALID)
{
mCanUseNET = mUrl.empty() ;
calcWorkPriority();
mType = host.isOk() ? LLImageBase::TYPE_AVATAR_BAKE : LLImageBase::TYPE_NORMAL;
// llinfos << "Create: " << mID << " mHost:" << host << " Discard=" << discard << llendl;
if (!mFetcher->mDebugPause)
{
U32 work_priority = mWorkPriority | LLWorkerThread::PRIORITY_HIGH;
addWork(0, work_priority );
}
setDesiredDiscard(discard, size);
}
LLTextureFetchWorker::~LLTextureFetchWorker()
{
// llinfos << "Destroy: " << mID
// << " Decoded=" << mDecodedDiscard
// << " Requested=" << mRequestedDiscard
// << " Desired=" << mDesiredDiscard << llendl;
llassert_always(!haveWork());
lockWorkMutex();
if (mCacheReadHandle != LLTextureCache::nullHandle() && mFetcher->mTextureCache)
{
mFetcher->mTextureCache->readComplete(mCacheReadHandle, true);
}
if (mCacheWriteHandle != LLTextureCache::nullHandle() && mFetcher->mTextureCache)
{
mFetcher->mTextureCache->writeComplete(mCacheWriteHandle, true);
}
mFormattedImage = NULL;
clearPackets();
unlockWorkMutex();
mFetcher->removeFromHTTPQueue(mID);
}
void LLTextureFetchWorker::clearPackets()
{
for_each(mPackets.begin(), mPackets.end(), DeletePointer());
mPackets.clear();
mTotalPackets = 0;
mLastPacket = -1;
mFirstPacket = 0;
}
void LLTextureFetchWorker::setupPacketData()
{
S32 data_size = 0;
if (mFormattedImage.notNull())
{
data_size = mFormattedImage->getDataSize();
}
if (data_size > 0)
{
// Only used for simulator requests
mFirstPacket = (data_size - FIRST_PACKET_SIZE) / MAX_IMG_PACKET_SIZE + 1;
if (FIRST_PACKET_SIZE + (mFirstPacket-1) * MAX_IMG_PACKET_SIZE != data_size)
{
llwarns << "Bad CACHED TEXTURE size: " << data_size << " removing." << llendl;
removeFromCache();
resetFormattedData();
clearPackets();
}
else if (mFileSize > 0)
{
mLastPacket = mFirstPacket-1;
mTotalPackets = (mFileSize - FIRST_PACKET_SIZE + MAX_IMG_PACKET_SIZE-1) / MAX_IMG_PACKET_SIZE + 1;
}
else
{
// This file was cached using HTTP so we have to refetch the first packet
resetFormattedData();
clearPackets();
}
}
}
U32 LLTextureFetchWorker::calcWorkPriority()
{
//llassert_always(mImagePriority >= 0 && mImagePriority <= LLViewerFetchedTexture::maxDecodePriority());
static const F32 PRIORITY_SCALE = (F32)LLWorkerThread::PRIORITY_LOWBITS / LLViewerFetchedTexture::maxDecodePriority();
mWorkPriority = llmin((U32)LLWorkerThread::PRIORITY_LOWBITS, (U32)(mImagePriority * PRIORITY_SCALE));
return mWorkPriority;
}
// mWorkMutex is locked
void LLTextureFetchWorker::setDesiredDiscard(S32 discard, S32 size)
{
bool prioritize = false;
if (mDesiredDiscard != discard)
{
if (!haveWork())
{
calcWorkPriority();
if (!mFetcher->mDebugPause)
{
U32 work_priority = mWorkPriority | LLWorkerThread::PRIORITY_HIGH;
addWork(0, work_priority);
}
}
else if (mDesiredDiscard < discard)
{
prioritize = true;
}
mDesiredDiscard = discard;
mDesiredSize = size;
}
else if (size > mDesiredSize)
{
mDesiredSize = size;
prioritize = true;
}
mDesiredSize = llmax(mDesiredSize, TEXTURE_CACHE_ENTRY_SIZE);
if ((prioritize && mState == INIT) || mState == DONE)
{
mState = INIT;
U32 work_priority = mWorkPriority | LLWorkerThread::PRIORITY_HIGH;
setPriority(work_priority);
}
}
void LLTextureFetchWorker::setImagePriority(F32 priority)
{
// llassert_always(priority >= 0 && priority <= LLViewerTexture::maxDecodePriority());
F32 delta = fabs(priority - mImagePriority);
if (delta > (mImagePriority * .05f) || mState == DONE)
{
mImagePriority = priority;
calcWorkPriority();
U32 work_priority = mWorkPriority | (getPriority() & LLWorkerThread::PRIORITY_HIGHBITS);
setPriority(work_priority);
}
}
void LLTextureFetchWorker::resetFormattedData()
{
delete[] mBuffer;
mBuffer = NULL;
mBufferSize = 0;
if (mFormattedImage.notNull())
{
mFormattedImage->deleteData();
}
mHaveAllData = FALSE;
}
// Called from MAIN thread
void LLTextureFetchWorker::startWork(S32 param)
{
llassert(mFormattedImage.isNull());
}
#include "llviewertexturelist.h" // debug
// Called from LLWorkerThread::processRequest()
bool LLTextureFetchWorker::doWork(S32 param)
{
LLMutexLock lock(&mWorkMutex);
if ((mFetcher->isQuitting() || getFlags(LLWorkerClass::WCF_DELETE_REQUESTED)))
{
if (mState < DECODE_IMAGE)
{
return true; // abort
}
}
if(mImagePriority < 1.0f)
{
if (mState == INIT || mState == LOAD_FROM_NETWORK || mState == LOAD_FROM_SIMULATOR)
{
return true; // abort
}
}
if(mState > CACHE_POST && !mCanUseNET && !mCanUseHTTP)
{
//nowhere to get data, abort.
return true ;
}
if (mFetcher->mDebugPause)
{
return false; // debug: don't do any work
}
if (mID == mFetcher->mDebugID)
{
mFetcher->mDebugCount++; // for setting breakpoints
}
if (mState != DONE)
{
mFetchTimer.reset();
}
if (mState == INIT)
{
mRawImage = NULL ;
mRequestedDiscard = -1;
mLoadedDiscard = -1;
mDecodedDiscard = -1;
mRequestedSize = 0;
mFileSize = 0;
mCachedSize = 0;
mLoaded = FALSE;
mSentRequest = UNSENT;
mDecoded = FALSE;
mWritten = FALSE;
delete[] mBuffer;
mBuffer = NULL;
mBufferSize = 0;
mHaveAllData = FALSE;
clearPackets(); // TODO: Shouldn't be necessary
mCacheReadHandle = LLTextureCache::nullHandle();
mCacheWriteHandle = LLTextureCache::nullHandle();
mState = LOAD_FROM_TEXTURE_CACHE;
mDesiredSize = llmax(mDesiredSize, TEXTURE_CACHE_ENTRY_SIZE); // min desired size is TEXTURE_CACHE_ENTRY_SIZE
LL_DEBUGS("Texture") << mID << ": Priority: " << llformat("%8.0f",mImagePriority)
<< " Desired Discard: " << mDesiredDiscard << " Desired Size: " << mDesiredSize << LL_ENDL;
// fall through
}
if (mState == LOAD_FROM_TEXTURE_CACHE)
{
if (mCacheReadHandle == LLTextureCache::nullHandle())
{
U32 cache_priority = mWorkPriority;
S32 offset = mFormattedImage.notNull() ? mFormattedImage->getDataSize() : 0;
S32 size = mDesiredSize - offset;
if (size <= 0)
{
mState = CACHE_POST;
return false;
}
mFileSize = 0;
mLoaded = FALSE;
if (mUrl.compare(0, 7, "file://") == 0)
{
setPriority(LLWorkerThread::PRIORITY_LOW | mWorkPriority); // Set priority first since Responder may change it
// read file from local disk
std::string filename = mUrl.substr(7, std::string::npos);
CacheReadResponder* responder = new CacheReadResponder(mFetcher, mID, mFormattedImage);
mCacheReadHandle = mFetcher->mTextureCache->readFromCache(filename, mID, cache_priority,
offset, size, responder);
}
else if (mUrl.empty())
{
setPriority(LLWorkerThread::PRIORITY_LOW | mWorkPriority); // Set priority first since Responder may change it
CacheReadResponder* responder = new CacheReadResponder(mFetcher, mID, mFormattedImage);
mCacheReadHandle = mFetcher->mTextureCache->readFromCache(mID, cache_priority,
offset, size, responder);
}
else if(mCanUseHTTP)
{
if (!(mUrl.compare(0, 7, "http://") == 0))
{
// *TODO:?remove this warning
llwarns << "Unknown URL Type: " << mUrl << llendl;
}
setPriority(LLWorkerThread::PRIORITY_HIGH | mWorkPriority);
mState = SEND_HTTP_REQ;
}
else
{
setPriority(LLWorkerThread::PRIORITY_HIGH | mWorkPriority);
mState = LOAD_FROM_NETWORK;
}
}
if (mLoaded)
{
// Make sure request is complete. *TODO: make this auto-complete
if (mFetcher->mTextureCache->readComplete(mCacheReadHandle, false))
{
mCacheReadHandle = LLTextureCache::nullHandle();
mState = CACHE_POST;
// fall through
}
else
{
return false;
}
}
else
{
return false;
}
}
if (mState == CACHE_POST)
{
mCachedSize = mFormattedImage.notNull() ? mFormattedImage->getDataSize() : 0;
// Successfully loaded
if ((mCachedSize >= mDesiredSize) || mHaveAllData)
{
// we have enough data, decode it
llassert_always(mFormattedImage->getDataSize() > 0);
mLoadedDiscard = mDesiredDiscard;
mState = DECODE_IMAGE;
mWriteToCacheState = NOT_WRITE ;
LL_DEBUGS("Texture") << mID << ": Cached. Bytes: " << mFormattedImage->getDataSize()
<< " Size: " << llformat("%dx%d",mFormattedImage->getWidth(),mFormattedImage->getHeight())
<< " Desired Discard: " << mDesiredDiscard << " Desired Size: " << mDesiredSize << LL_ENDL;
// fall through
}
else
{
if (mUrl.compare(0, 7, "file://") == 0)
{
// failed to load local file, we're done.
return true;
}
// need more data
else
{
LL_DEBUGS("Texture") << mID << ": Not in Cache" << LL_ENDL;
mState = LOAD_FROM_NETWORK;
}
// fall through
}
}
if (mState == LOAD_FROM_NETWORK)
{
static LLCachedControl<bool> use_http(gSavedSettings,"ImagePipelineUseHTTP");
// if (mHost != LLHost::invalid) get_url = false;
if ( use_http && mCanUseHTTP && mUrl.empty())//get http url.
{
LLViewerRegion* region = NULL;
if (mHost == LLHost::invalid)
region = gAgent.getRegion();
else
region = LLWorld::getInstance()->getRegion(mHost);
if (region)
{
std::string http_url = region->getHttpUrl() ;
if (!http_url.empty())
{
mUrl = http_url + "/?texture_id=" + mID.asString().c_str();
mWriteToCacheState = CAN_WRITE ; //because this texture has a fixed texture id.
}
else
{
mCanUseHTTP = false ;
}
}
else
{
// This will happen if not logged in or if a region deoes not have HTTP Texture enabled
//llwarns << "Region not found for host: " << mHost << llendl;
mCanUseHTTP = false;
}
}
if (mCanUseHTTP && !mUrl.empty())
{
mState = LLTextureFetchWorker::SEND_HTTP_REQ;
setPriority(LLWorkerThread::PRIORITY_HIGH | mWorkPriority);
if(mWriteToCacheState != NOT_WRITE)
{
mWriteToCacheState = CAN_WRITE ;
}
// don't return, fall through to next state
}
else if (mSentRequest == UNSENT && mCanUseNET)
{
// Add this to the network queue and sit here.
// LLTextureFetch::update() will send off a request which will change our state
mWriteToCacheState = CAN_WRITE ;
mRequestedSize = mDesiredSize;
mRequestedDiscard = mDesiredDiscard;
mSentRequest = QUEUED;
mFetcher->addToNetworkQueue(this);
setPriority(LLWorkerThread::PRIORITY_LOW | mWorkPriority);
return false;
}
else
{
// Shouldn't need to do anything here
//llassert_always(mFetcher->mNetworkQueue.find(mID) != mFetcher->mNetworkQueue.end());
// Make certain this is in the network queue
//mFetcher->addToNetworkQueue(this);
//setPriority(LLWorkerThread::PRIORITY_LOW | mWorkPriority);
return false;
}
}
if (mState == LOAD_FROM_SIMULATOR)
{
if (mFormattedImage.isNull())
{
mFormattedImage = new LLImageJ2C;
}
if (processSimulatorPackets())
{
LL_DEBUGS("Texture") << mID << ": Loaded from Sim. Bytes: " << mFormattedImage->getDataSize() << LL_ENDL;
mFetcher->removeFromNetworkQueue(this, false);
if (mFormattedImage.isNull() || !mFormattedImage->getDataSize())
{
// processSimulatorPackets() failed
// llwarns << "processSimulatorPackets() failed to load buffer" << llendl;
return true; // failed
}
setPriority(LLWorkerThread::PRIORITY_HIGH | mWorkPriority);
mState = DECODE_IMAGE;
mWriteToCacheState = SHOULD_WRITE ;
}
else
{
mFetcher->addToNetworkQueue(this); // failsafe
setPriority(LLWorkerThread::PRIORITY_LOW | mWorkPriority);
}
return false;
}
if (mState == SEND_HTTP_REQ)
{
if(mCanUseHTTP)
{
// *TODO: Integrate this with llviewerthrottle
// Note: LLViewerThrottle uses dynamic throttling which makes sense for UDP,
// but probably not for Textures.
// Set the throttle to the entire bandwidth, assuming UDP packets will get priority
// when they are needed
F32 max_bandwidth = mFetcher->mMaxBandwidth;
if (mFetcher->isHTTPThrottled(mDesiredSize) ||
mFetcher->getTextureBandwidth() > max_bandwidth)
{
// Make normal priority and return (i.e. wait until there is room in the queue)
setPriority(LLWorkerThread::PRIORITY_NORMAL | mWorkPriority);
return false;
}
mFetcher->removeFromNetworkQueue(this, false);
S32 cur_size = 0;
if (mFormattedImage.notNull())
{
cur_size = mFormattedImage->getDataSize(); // amount of data we already have
if (mFormattedImage->getDiscardLevel() == 0)
{
// We already have all the data, just decode it
mLoadedDiscard = mFormattedImage->getDiscardLevel();
mState = DECODE_IMAGE;
return false;
}
}
mRequestedSize = mDesiredSize;
mRequestedDiscard = mDesiredDiscard;
mRequestedSize -= cur_size;
S32 offset = cur_size;
mBufferSize = cur_size; // This will get modified by callbackHttpGet()
bool res = false;
if (!mUrl.empty())
{
mLoaded = FALSE;
mGetStatus = 0;
mGetReason.clear();
LL_DEBUGS("Texture") << "HTTP GET: " << mID << " Offset: " << offset
<< " Bytes: " << mRequestedSize
<< " Bandwidth(kbps): " << mFetcher->getTextureBandwidth() << "/" << max_bandwidth
<< LL_ENDL;
setPriority(LLWorkerThread::PRIORITY_LOW | mWorkPriority);
mState = WAIT_HTTP_REQ;
mFetcher->addToHTTPQueue(mID);
// Will call callbackHttpGet when curl request completes
std::vector<std::string> headers;
headers.push_back("Accept: image/x-j2c");
res = mFetcher->mCurlGetRequest->getByteRange(mUrl, headers, offset, mRequestedSize,
new HTTPGetResponder(mFetcher, mID, LLTimer::getTotalTime(), mRequestedSize, offset, true));
}
if (!res)
{
llwarns << "HTTP GET request failed for " << mID << llendl;
resetFormattedData();
++mHTTPFailCount;
return true; // failed
}
// fall through
}
else //can not use http fetch.
{
return true ; //abort
}
}
if (mState == WAIT_HTTP_REQ)
{
if (mLoaded)
{
S32 cur_size = mFormattedImage.notNull() ? mFormattedImage->getDataSize() : 0;
if (mRequestedSize < 0)
{
S32 max_attempts;
if (mGetStatus == HTTP_NOT_FOUND)
{
mHTTPFailCount = max_attempts = 1; // Don't retry
llwarns << "Texture missing from server (404): " << mUrl << llendl;
//roll back to try UDP
if(mCanUseNET)
{
mState = INIT ;
mCanUseHTTP = false ;
setPriority(LLWorkerThread::PRIORITY_HIGH | mWorkPriority);
return false ;
}
}
else if (mGetStatus == HTTP_SERVICE_UNAVAILABLE)
{
// *TODO: Should probably introduce a timer here to delay future HTTP requsts
// for a short time (~1s) to ease server load? Ideally the server would queue
// requests instead of returning 503... we already limit the number pending.
++mHTTPFailCount;
max_attempts = mHTTPFailCount+1; // Keep retrying
LL_INFOS_ONCE("Texture") << "Texture server busy (503): " << mUrl << LL_ENDL;
}
else
{
const S32 HTTP_MAX_RETRY_COUNT = 3;
max_attempts = HTTP_MAX_RETRY_COUNT + 1;
++mHTTPFailCount;
llinfos << "HTTP GET failed for: " << mUrl
<< " Status: " << mGetStatus << " Reason: '" << mGetReason << "'"
<< " Attempt:" << mHTTPFailCount+1 << "/" << max_attempts << llendl;
}
if (mHTTPFailCount >= max_attempts)
{
if (cur_size > 0)
{
// Use available data
mLoadedDiscard = mFormattedImage->getDiscardLevel();
mState = DECODE_IMAGE;
return false;
}
else
{
resetFormattedData();
return true; // failed
}
}
else
{
mState = SEND_HTTP_REQ;
return false; // retry
}
}
if (mFormattedImage.isNull())
{
// For now, create formatted image based on extension
std::string extension = gDirUtilp->getExtension(mUrl);
mFormattedImage = LLImageFormatted::createFromType(LLImageBase::getCodecFromExtension(extension));
if (mFormattedImage.isNull())
{
mFormattedImage = new LLImageJ2C; // default
}
}
llassert_always(mBufferSize == cur_size + mRequestedSize);
if (mHaveAllData && mRequestedDiscard == 0) //the image file is fully loaded.
{
mFileSize = mBufferSize;
}
else //the file size is unknown.
{
mFileSize = mBufferSize + 1 ; //flag the file is not fully loaded.
}
U8* buffer = new U8[mBufferSize];
if (cur_size > 0)
{
memcpy(buffer, mFormattedImage->getData(), cur_size);
}
memcpy(buffer + cur_size, mBuffer, mRequestedSize); // append
// NOTE: setData releases current data and owns new data (buffer)
mFormattedImage->setData(buffer, mBufferSize);
// delete temp data
delete[] mBuffer; // Note: not 'buffer' (assigned in setData())
mBuffer = NULL;
mBufferSize = 0;
mLoadedDiscard = mRequestedDiscard;
mState = DECODE_IMAGE;
if(mWriteToCacheState != NOT_WRITE)
{
mWriteToCacheState = SHOULD_WRITE ;
}
setPriority(LLWorkerThread::PRIORITY_HIGH | mWorkPriority);
return false;
}
else
{
setPriority(LLWorkerThread::PRIORITY_LOW | mWorkPriority);
return false;
}
}
if (mState == DECODE_IMAGE)
{
static LLCachedControl<bool> textures_decode_disabled(gSavedSettings,"TextureDecodeDisabled");
if(textures_decode_disabled)
{
// for debug use, don't decode
mState = DONE;
setPriority(LLWorkerThread::PRIORITY_LOW | mWorkPriority);
return true;
}
if (mDesiredDiscard < 0)
{
// We aborted, don't decode
mState = DONE;
setPriority(LLWorkerThread::PRIORITY_LOW | mWorkPriority);
return true;
}
if (mFormattedImage->getDataSize() <= 0)
{
llerrs << "Decode entered with invalid mFormattedImage. ID = " << mID << llendl;
}
if (mLoadedDiscard < 0)
{
//llerrs << "Decode entered with invalid mLoadedDiscard. ID = " << mID << llendl;
//abort, don't decode
mState = DONE;
setPriority(LLWorkerThread::PRIORITY_LOW | mWorkPriority);
return true;
}
setPriority(LLWorkerThread::PRIORITY_LOW | mWorkPriority); // Set priority first since Responder may change it
mRawImage = NULL;
mAuxImage = NULL;
llassert_always(mFormattedImage.notNull());
S32 discard = mHaveAllData ? 0 : mLoadedDiscard;
U32 image_priority = LLWorkerThread::PRIORITY_NORMAL | mWorkPriority;
mDecoded = FALSE;
mState = DECODE_IMAGE_UPDATE;
LL_DEBUGS("Texture") << mID << ": Decoding. Bytes: " << mFormattedImage->getDataSize() << " Discard: " << discard
<< " All Data: " << mHaveAllData << LL_ENDL;
mDecodeHandle = mFetcher->mImageDecodeThread->decodeImage(mFormattedImage, image_priority, discard, mNeedsAux,
new DecodeResponder(mFetcher, mID, this));
// fall though
}
if (mState == DECODE_IMAGE_UPDATE)
{
if (mDecoded)
{
if (mDecodedDiscard < 0)
{
LL_DEBUGS("Texture") << mID << ": Failed to Decode." << LL_ENDL;
if (mCachedSize > 0 && !mInLocalCache && mRetryAttempt == 0)
{
// Cache file should be deleted, try again
// llwarns << mID << ": Decode of cached file failed (removed), retrying" << llendl;
llassert_always(mDecodeHandle == 0);
mFormattedImage = NULL;
++mRetryAttempt;
setPriority(LLWorkerThread::PRIORITY_HIGH | mWorkPriority);
mState = INIT;
return false;
}
else
{
// llwarns << "UNABLE TO LOAD TEXTURE: " << mID << " RETRIES: " << mRetryAttempt << llendl;
mState = DONE; // failed
}
}
else
{
llassert_always(mRawImage.notNull());
LL_DEBUGS("Texture") << mID << ": Decoded. Discard: " << mDecodedDiscard
<< " Raw Image: " << llformat("%dx%d",mRawImage->getWidth(),mRawImage->getHeight()) << LL_ENDL;
setPriority(LLWorkerThread::PRIORITY_HIGH | mWorkPriority);
mState = WRITE_TO_CACHE;
}
// fall through
}
else
{
return false;
}
}
if (mState == WRITE_TO_CACHE)
{
if (mWriteToCacheState != SHOULD_WRITE || mFormattedImage.isNull())
{
// If we're in a local cache or we didn't actually receive any new data,
// or we failed to load anything, skip
mState = DONE;
return false;
}
S32 datasize = mFormattedImage->getDataSize();
if(mFileSize < datasize)//This could happen when http fetching and sim fetching mixed.
{
if(mHaveAllData)
{
mFileSize = datasize ;
}
else
{
mFileSize = datasize + 1 ; //flag not fully loaded.
}
}
llassert_always(datasize);
setPriority(LLWorkerThread::PRIORITY_LOW | mWorkPriority); // Set priority first since Responder may change it
U32 cache_priority = mWorkPriority;
mWritten = FALSE;
mState = WAIT_ON_WRITE;
CacheWriteResponder* responder = new CacheWriteResponder(mFetcher, mID);
mCacheWriteHandle = mFetcher->mTextureCache->writeToCache(mID, cache_priority,
mFormattedImage->getData(), datasize,
mFileSize, responder);
// fall through
}
if (mState == WAIT_ON_WRITE)
{
if (writeToCacheComplete())
{
mState = DONE;
// fall through
}
else
{
if (mDesiredDiscard < mDecodedDiscard)
{
// We're waiting for this write to complete before we can receive more data
// (we can't touch mFormattedImage until the write completes)
// Prioritize the write
mFetcher->mTextureCache->prioritizeWrite(mCacheWriteHandle);
}
return false;
}
}
if (mState == DONE)
{
if (mDecodedDiscard >= 0 && mDesiredDiscard < mDecodedDiscard)
{
// More data was requested, return to INIT
mState = INIT;
setPriority(LLWorkerThread::PRIORITY_HIGH | mWorkPriority);
return false;
}
else
{
setPriority(LLWorkerThread::PRIORITY_LOW | mWorkPriority);
return true;
}
}
return false;
}
// Called from MAIN thread
void LLTextureFetchWorker::endWork(S32 param, bool aborted)
{
if (mDecodeHandle != 0)
{
mFetcher->mImageDecodeThread->abortRequest(mDecodeHandle, false);
mDecodeHandle = 0;
}
mFormattedImage = NULL;
}
//////////////////////////////////////////////////////////////////////////////
// virtual
void LLTextureFetchWorker::finishWork(S32 param, bool completed)
{
// The following are required in case the work was aborted
if (mCacheReadHandle != LLTextureCache::nullHandle())
{
mFetcher->mTextureCache->readComplete(mCacheReadHandle, true);
mCacheReadHandle = LLTextureCache::nullHandle();
}
if (mCacheWriteHandle != LLTextureCache::nullHandle())
{
mFetcher->mTextureCache->writeComplete(mCacheWriteHandle, true);
mCacheWriteHandle = LLTextureCache::nullHandle();
}
}
// virtual
bool LLTextureFetchWorker::deleteOK()
{
bool delete_ok = true;
// Allow any pending reads or writes to complete
if (mCacheReadHandle != LLTextureCache::nullHandle())
{
if (mFetcher->mTextureCache->readComplete(mCacheReadHandle, true))
{
mCacheReadHandle = LLTextureCache::nullHandle();
}
else
{
delete_ok = false;
}
}
if (mCacheWriteHandle != LLTextureCache::nullHandle())
{
if (mFetcher->mTextureCache->writeComplete(mCacheWriteHandle))
{
mCacheWriteHandle = LLTextureCache::nullHandle();
}
else
{
delete_ok = false;
}
}
if ((haveWork() &&
// not ok to delete from these states
((mState == WAIT_HTTP_REQ) ||
(mState >= WRITE_TO_CACHE && mState <= WAIT_ON_WRITE))))
{
delete_ok = false;
}
return delete_ok;
}
void LLTextureFetchWorker::removeFromCache()
{
if (!mInLocalCache)
{
mFetcher->mTextureCache->removeFromCache(mID);
}
}
//////////////////////////////////////////////////////////////////////////////
bool LLTextureFetchWorker::processSimulatorPackets()
{
if (mFormattedImage.isNull() || mRequestedSize < 0)
{
// not sure how we got here, but not a valid state, abort!
llassert_always(mDecodeHandle == 0);
mFormattedImage = NULL;
return true;
}
if (mLastPacket >= mFirstPacket)
{
S32 buffer_size = mFormattedImage->getDataSize();
for (S32 i = mFirstPacket; i<=mLastPacket; i++)
{
llassert_always(mPackets[i]);
buffer_size += mPackets[i]->mSize;
}
bool have_all_data = mLastPacket >= mTotalPackets-1;
if (mRequestedSize <= 0)
{
// We received a packed but haven't requested anything yet (edge case)
// Return true (we're "done") since we didn't request anything
return true;
}
if (buffer_size >= mRequestedSize || have_all_data)
{
/// We have enough (or all) data
if (have_all_data)
{
mHaveAllData = TRUE;
}
S32 cur_size = mFormattedImage->getDataSize();
if (buffer_size > cur_size)
{
/// We have new data
U8* buffer = new U8[buffer_size];
S32 offset = 0;
if (cur_size > 0 && mFirstPacket > 0)
{
memcpy(buffer, mFormattedImage->getData(), cur_size);
offset = cur_size;
}
for (S32 i=mFirstPacket; i<=mLastPacket; i++)
{
memcpy(buffer + offset, mPackets[i]->mData, mPackets[i]->mSize);
offset += mPackets[i]->mSize;
}
// NOTE: setData releases current data
mFormattedImage->setData(buffer, buffer_size);
}
mLoadedDiscard = mRequestedDiscard;
return true;
}
}
return false;
}
//////////////////////////////////////////////////////////////////////////////
void LLTextureFetchWorker::callbackHttpGet(const LLChannelDescriptors& channels,
const LLIOPipe::buffer_ptr_t& buffer,
bool partial, bool success)
{
LLMutexLock lock(&mWorkMutex);
if (mState != WAIT_HTTP_REQ)
{
llwarns << "callbackHttpGet for unrequested fetch worker: " << mID
<< " req=" << mSentRequest << " state= " << mState << llendl;
return;
}
if (mLoaded)
{
llwarns << "Duplicate callback for " << mID.asString() << llendl;
return; // ignore duplicate callback
}
if (success)
{
// get length of stream:
S32 data_size = buffer->countAfter(channels.in(), NULL);
gTextureList.sTextureBits += data_size * 8; // Approximate - does not include header bits
LL_DEBUGS("Texture") << "HTTP RECEIVED: " << mID.asString() << " Bytes: " << data_size << LL_ENDL;
if (data_size > 0)
{
// *TODO: set the formatted image data here directly to avoid the copy
mBuffer = new U8[data_size];
buffer->readAfter(channels.in(), NULL, mBuffer, data_size);
mBufferSize += data_size;
if (data_size < mRequestedSize && mRequestedDiscard == 0)
{
mHaveAllData = TRUE;
}
else if (data_size > mRequestedSize)
{
// *TODO: This shouldn't be happening any more
llwarns << "data_size = " << data_size << " > requested: " << mRequestedSize << llendl;
mHaveAllData = TRUE;
llassert_always(mDecodeHandle == 0);
mFormattedImage = NULL; // discard any previous data we had
mBufferSize = data_size;
}
}
else
{
// We requested data but received none (and no error),
// so presumably we have all of it
mHaveAllData = TRUE;
}
mRequestedSize = data_size;
}
else
{
mRequestedSize = -1; // error
}
mLoaded = TRUE;
setPriority(LLWorkerThread::PRIORITY_HIGH | mWorkPriority);
}
//////////////////////////////////////////////////////////////////////////////
void LLTextureFetchWorker::callbackCacheRead(bool success, LLImageFormatted* image,
S32 imagesize, BOOL islocal)
{
LLMutexLock lock(&mWorkMutex);
if (mState != LOAD_FROM_TEXTURE_CACHE)
{
// llwarns << "Read callback for " << mID << " with state = " << mState << llendl;
return;
}
if (success)
{
llassert_always(imagesize >= 0);
mFileSize = imagesize;
mFormattedImage = image;
mImageCodec = image->getCodec();
mInLocalCache = islocal;
if (mFileSize != 0 && mFormattedImage->getDataSize() >= mFileSize)
{
mHaveAllData = TRUE;
}
}
mLoaded = TRUE;
setPriority(LLWorkerThread::PRIORITY_HIGH | mWorkPriority);
}
void LLTextureFetchWorker::callbackCacheWrite(bool success)
{
LLMutexLock lock(&mWorkMutex);
if (mState != WAIT_ON_WRITE)
{
// llwarns << "Write callback for " << mID << " with state = " << mState << llendl;
return;
}
mWritten = TRUE;
setPriority(LLWorkerThread::PRIORITY_HIGH | mWorkPriority);
}
//////////////////////////////////////////////////////////////////////////////
void LLTextureFetchWorker::callbackDecoded(bool success, LLImageRaw* raw, LLImageRaw* aux)
{
LLMutexLock lock(&mWorkMutex);
if (mDecodeHandle == 0)
{
return; // aborted, ignore
}
if (mState != DECODE_IMAGE_UPDATE)
{
// llwarns << "Decode callback for " << mID << " with state = " << mState << llendl;
mDecodeHandle = 0;
return;
}
llassert_always(mFormattedImage.notNull());
mDecodeHandle = 0;
if (success)
{
llassert_always(raw);
mRawImage = raw;
mAuxImage = aux;
mDecodedDiscard = mFormattedImage->getDiscardLevel();
LL_DEBUGS("Texture") << mID << ": Decode Finished. Discard: " << mDecodedDiscard
<< " Raw Image: " << llformat("%dx%d",mRawImage->getWidth(),mRawImage->getHeight()) << LL_ENDL;
}
else
{
llwarns << "DECODE FAILED: " << mID << " Discard: " << (S32)mFormattedImage->getDiscardLevel() << llendl;
removeFromCache();
mDecodedDiscard = -1; // Redundant, here for clarity and paranoia
}
mDecoded = TRUE;
// llinfos << mID << " : DECODE COMPLETE " << llendl;
setPriority(LLWorkerThread::PRIORITY_HIGH | mWorkPriority);
}
//////////////////////////////////////////////////////////////////////////////
bool LLTextureFetchWorker::writeToCacheComplete()
{
// Complete write to cache
if (mCacheWriteHandle != LLTextureCache::nullHandle())
{
if (!mWritten)
{
return false;
}
if (mFetcher->mTextureCache->writeComplete(mCacheWriteHandle))
{
mCacheWriteHandle = LLTextureCache::nullHandle();
}
else
{
return false;
}
}
return true;
}
//////////////////////////////////////////////////////////////////////////////
//////////////////////////////////////////////////////////////////////////////
// public
LLTextureFetch::LLTextureFetch(LLTextureCache* cache, LLImageDecodeThread* imagedecodethread, bool threaded)
: LLWorkerThread("TextureFetch", threaded),
mDebugCount(0),
mDebugPause(FALSE),
mPacketCount(0),
mBadPacketCount(0),
mQueueMutex(getAPRPool()),
mNetworkQueueMutex(getAPRPool()),
mTextureCache(cache),
mImageDecodeThread(imagedecodethread),
mTextureBandwidth(0),
mCurlGetRequest(NULL)
{
mMaxBandwidth = gSavedSettings.getF32("ThrottleBandwidthKBPS");
mTextureInfo.setUpLogging(gSavedSettings.getBOOL("LogTextureDownloadsToViewerLog"), gSavedSettings.getBOOL("LogTextureDownloadsToSimulator"), gSavedSettings.getU32("TextureLoggingThreshold"));
for(S32 i = 0 ; i < TOTAL_TEXTURE_TYPES; i++)
{
mHTTPThrottleFlag[i] = FALSE ;
}
}
LLTextureFetch::~LLTextureFetch()
{
clearDeleteList() ;
// ~LLQueuedThread() called here
}
bool LLTextureFetch::createRequest(const std::string& url, const LLUUID& id, const LLHost& host, F32 priority,
S32 w, S32 h, S32 c, S32 desired_discard, bool needs_aux, bool can_use_http)
{
if (mDebugPause)
{
return false;
}
LLTextureFetchWorker* worker = getWorker(id) ;
if (worker)
{
if (worker->mHost != host)
{
llwarns << "LLTextureFetch::createRequest " << id << " called with multiple hosts: "
<< host << " != " << worker->mHost << llendl;
removeRequest(worker, true);
worker = NULL;
return false;
}
}
S32 desired_size;
std::string exten = gDirUtilp->getExtension(url);
if (!url.empty() && (!exten.empty() && LLImageBase::getCodecFromExtension(exten) != IMG_CODEC_J2C))
{
// Only do partial requests for J2C at the moment
//llinfos << "Merov : LLTextureFetch::createRequest(), blocking fetch on " << url << llendl;
desired_size = MAX_IMAGE_DATA_SIZE;
desired_discard = 0;
}
else if (desired_discard == 0)
{
// if we want the entire image, and we know its size, then get it all
// (calcDataSizeJ2C() below makes assumptions about how the image
// was compressed - this code ensures that when we request the entire image,
// we really do get it.)
desired_size = MAX_IMAGE_DATA_SIZE;
}
else if (w*h*c > 0)
{
// If the requester knows the dimensions of the image,
// this will calculate how much data we need without having to parse the header
desired_size = LLImageJ2C::calcDataSizeJ2C(w, h, c, desired_discard);
}
else
{
desired_size = TEXTURE_CACHE_ENTRY_SIZE;
desired_discard = MAX_DISCARD_LEVEL;
}
if (worker)
{
if (worker->wasAborted())
{
return false; // need to wait for previous aborted request to complete
}
worker->lockWorkMutex();
worker->mActiveCount++;
worker->mNeedsAux = needs_aux;
worker->setImagePriority(priority);
worker->setDesiredDiscard(desired_discard, desired_size);
worker->setCanUseHTTP(can_use_http) ;
if (!worker->haveWork())
{
worker->mState = LLTextureFetchWorker::INIT;
worker->unlockWorkMutex();
worker->addWork(0, LLWorkerThread::PRIORITY_HIGH | worker->mWorkPriority);
}
else
{
worker->unlockWorkMutex();
}
}
else
{
worker = new LLTextureFetchWorker(this, url, id, host, priority, desired_discard, desired_size);
lockQueue() ;
mRequestMap[id] = worker;
unlockQueue() ;
worker->lockWorkMutex();
worker->mActiveCount++;
worker->mNeedsAux = needs_aux;
worker->setCanUseHTTP(can_use_http) ;
worker->unlockWorkMutex();
}
// llinfos << "REQUESTED: " << id << " Discard: " << desired_discard << llendl;
return true;
}
// protected
void LLTextureFetch::addToNetworkQueue(LLTextureFetchWorker* worker)
{
lockQueue() ;
bool in_request_map = (mRequestMap.find(worker->mID) != mRequestMap.end()) ;
unlockQueue() ;
LLMutexLock lock(&mNetworkQueueMutex);
if (in_request_map)
{
// only add to the queue if in the request map
// i.e. a delete has not been requested
mNetworkQueue.insert(worker->mID);
}
for (cancel_queue_t::iterator iter1 = mCancelQueue.begin();
iter1 != mCancelQueue.end(); ++iter1)
{
iter1->second.erase(worker->mID);
}
}
void LLTextureFetch::removeFromNetworkQueue(LLTextureFetchWorker* worker, bool cancel)
{
LLMutexLock lock(&mNetworkQueueMutex);
size_t erased = mNetworkQueue.erase(worker->mID);
if (cancel && erased > 0)
{
mCancelQueue[worker->mHost].insert(worker->mID);
}
}
// protected
void LLTextureFetch::addToHTTPQueue(const LLUUID& id)
{
LLMutexLock lock(&mNetworkQueueMutex);
mHTTPTextureQueue.insert(id);
}
void LLTextureFetch::removeFromHTTPQueue(const LLUUID& id)
{
LLMutexLock lock(&mNetworkQueueMutex);
mHTTPTextureQueue.erase(id);
}
void LLTextureFetch::clearHTTPThrottleFlag()
{
static const F32 WAIT_TIME = 0.3f ; //seconds.
static LLFrameTimer timer ;
if(timer.getElapsedTimeF32() < WAIT_TIME) //wait for WAIT_TIME
{
return ;
}
timer.reset() ;
LLMutexLock lock(&mNetworkQueueMutex);
for(S32 i = 0 ; i < TOTAL_TEXTURE_TYPES; i++)//reset the http throttle flags.
{
mHTTPThrottleFlag[i] = FALSE ;
}
}
//check if need to throttle this fetching request.
//rule: if a request can not be inserted into the http queue due to a full queue,
// block all future insertions of requests with larger fetching size requirement.
//because:
// later insertions are usually at lower priorities; and
// small textures need chance to be fetched.
bool LLTextureFetch::isHTTPThrottled(S32 requested_size)
{
static const S32 SMALL_TEXTURE_MAX_SIZE = 64 * 64 * 4 ;
static const S32 MEDIUM_TEXTURE_MAX_SIZE = 256 * 256 * 4 ;
static const U32 MAX_HTTP_QUEUE_SIZE = 8 ;
//determine the class of the texture: SMALL, MEDIUM, or LARGE.
S32 type = LARGE_TEXTURE ;
if(requested_size <= SMALL_TEXTURE_MAX_SIZE)
{
type = SMALL_TEXTURE ;
}
else if(requested_size <= MEDIUM_TEXTURE_MAX_SIZE)
{
type = MEDIUM_TEXTURE ;
}
LLMutexLock lock(&mNetworkQueueMutex);
if(mHTTPTextureQueue.size() >= MAX_HTTP_QUEUE_SIZE)//if the http queue is full.
{
if(!mHTTPThrottleFlag[type + 1])
{
for(S32 i = type + 1 ; i < TOTAL_TEXTURE_TYPES; i++) //block all requests with fetching size larger than this request.
{
mHTTPThrottleFlag[i] = TRUE ;
}
}
return true ;
}
return mHTTPThrottleFlag[type] ; //true if this request can not be inserted to the http queue.
}
void LLTextureFetch::deleteRequest(const LLUUID& id, bool cancel)
{
lockQueue() ;
LLTextureFetchWorker* worker = getWorkerAfterLock(id);
if (worker)
{
size_t erased_1 = mRequestMap.erase(worker->mID);
unlockQueue() ;
llassert_always(erased_1 > 0) ;
removeFromNetworkQueue(worker, cancel);
llassert_always(!(worker->getFlags(LLWorkerClass::WCF_DELETE_REQUESTED))) ;
worker->scheduleDelete();
}
else
{
unlockQueue() ;
}
}
void LLTextureFetch::removeRequest(LLTextureFetchWorker* worker, bool cancel)
{
lockQueue() ;
size_t erased_1 = mRequestMap.erase(worker->mID);
unlockQueue() ;
llassert_always(erased_1 > 0) ;
removeFromNetworkQueue(worker, cancel);
llassert_always(!(worker->getFlags(LLWorkerClass::WCF_DELETE_REQUESTED))) ;
worker->scheduleDelete();
}
S32 LLTextureFetch::getNumRequests()
{
lockQueue() ;
S32 size = (S32)mRequestMap.size();
unlockQueue() ;
return size ;
}
S32 LLTextureFetch::getNumHTTPRequests()
{
mNetworkQueueMutex.lock() ;
S32 size = (S32)mHTTPTextureQueue.size();
mNetworkQueueMutex.unlock() ;
return size ;
}
// call lockQueue() first!
LLTextureFetchWorker* LLTextureFetch::getWorkerAfterLock(const LLUUID& id)
{
LLTextureFetchWorker* res = NULL;
map_t::iterator iter = mRequestMap.find(id);
if (iter != mRequestMap.end())
{
res = iter->second;
}
return res;
}
LLTextureFetchWorker* LLTextureFetch::getWorker(const LLUUID& id)
{
LLMutexLock lock(&mQueueMutex) ;
return getWorkerAfterLock(id) ;
}
bool LLTextureFetch::getRequestFinished(const LLUUID& id, S32& discard_level,
LLPointer<LLImageRaw>& raw, LLPointer<LLImageRaw>& aux)
{
bool res = false;
LLTextureFetchWorker* worker = getWorker(id);
if (worker)
{
if (worker->wasAborted())
{
res = true;
}
else if (!worker->haveWork())
{
// Should only happen if we set mDebugPause...
if (!mDebugPause)
{
// llwarns << "Adding work for inactive worker: " << id << llendl;
worker->addWork(0, LLWorkerThread::PRIORITY_HIGH | worker->mWorkPriority);
}
}
else if (worker->checkWork())
{
worker->lockWorkMutex();
discard_level = worker->mDecodedDiscard;
raw = worker->mRawImage;
aux = worker->mAuxImage;
res = true;
LL_DEBUGS("Texture") << id << ": Request Finished. State: " << worker->mState << " Discard: " << discard_level << LL_ENDL;
worker->unlockWorkMutex();
}
else
{
worker->lockWorkMutex();
if ((worker->mDecodedDiscard >= 0) &&
(worker->mDecodedDiscard < discard_level || discard_level < 0) &&
(worker->mState >= LLTextureFetchWorker::WAIT_ON_WRITE))
{
// Not finished, but data is ready
discard_level = worker->mDecodedDiscard;
raw = worker->mRawImage;
aux = worker->mAuxImage;
}
worker->unlockWorkMutex();
}
}
else
{
res = true;
}
return res;
}
bool LLTextureFetch::updateRequestPriority(const LLUUID& id, F32 priority)
{
bool res = false;
LLTextureFetchWorker* worker = getWorker(id);
if (worker)
{
worker->lockWorkMutex();
worker->setImagePriority(priority);
worker->unlockWorkMutex();
res = true;
}
return res;
}
//////////////////////////////////////////////////////////////////////////////
// MAIN THREAD
//virtual
S32 LLTextureFetch::update(U32 max_time_ms)
{
S32 res;
static LLCachedControl<F32> band_width(gSavedSettings,"ThrottleBandwidthKBPS");
mMaxBandwidth = band_width ;
res = LLWorkerThread::update(max_time_ms);
if (!mDebugPause)
{
sendRequestListToSimulators();
}
if (!mThreaded)
{
// Update Curl on same thread as mCurlGetRequest was constructed
S32 processed = mCurlGetRequest->process();
if (processed > 0)
{
lldebugs << "processed: " << processed << " messages." << llendl;
}
}
clearHTTPThrottleFlag();
return res;
}
//called in the MAIN thread after the TextureCacheThread shuts down.
void LLTextureFetch::shutDownTextureCacheThread()
{
if(mTextureCache)
{
llassert_always(mTextureCache->isQuitting() || mTextureCache->isStopped()) ;
mTextureCache = NULL ;
}
}
//called in the MAIN thread after the ImageDecodeThread shuts down.
void LLTextureFetch::shutDownImageDecodeThread()
{
if(mImageDecodeThread)
{
llassert_always(mImageDecodeThread->isQuitting() || mImageDecodeThread->isStopped()) ;
mImageDecodeThread = NULL ;
}
}
// WORKER THREAD
void LLTextureFetch::startThread()
{
// Construct mCurlGetRequest from Worker Thread
mCurlGetRequest = new LLCurlRequest();
}
// WORKER THREAD
void LLTextureFetch::endThread()
{
// Destroy mCurlGetRequest from Worker Thread
delete mCurlGetRequest;
mCurlGetRequest = NULL;
}
// WORKER THREAD
void LLTextureFetch::threadedUpdate()
{
llassert_always(mCurlGetRequest);
// Limit update frequency
const F32 PROCESS_TIME = 0.05f;
static LLFrameTimer process_timer;
if (process_timer.getElapsedTimeF32() < PROCESS_TIME)
{
return;
}
process_timer.reset();
// Update Curl on same thread as mCurlGetRequest was constructed
S32 processed = mCurlGetRequest->process();
if (processed > 0)
{
lldebugs << "processed: " << processed << " messages." << llendl;
}
#if 0
const F32 INFO_TIME = 1.0f;
static LLFrameTimer info_timer;
if (info_timer.getElapsedTimeF32() >= INFO_TIME)
{
S32 q = mCurlGetRequest->getQueued();
if (q > 0)
{
llinfos << "Queued gets: " << q << llendl;
info_timer.reset();
}
}
#endif
}
//////////////////////////////////////////////////////////////////////////////
void LLTextureFetch::sendRequestListToSimulators()
{
// All requests
const F32 REQUEST_DELTA_TIME = 0.10f; // 10 fps
// Sim requests
const S32 IMAGES_PER_REQUEST = 50;
const F32 SIM_LAZY_FLUSH_TIMEOUT = 10.0f; // temp
const F32 MIN_REQUEST_TIME = 1.0f;
const F32 MIN_DELTA_PRIORITY = 1000.f;
// Periodically, gather the list of textures that need data from the network
// And send the requests out to the simulators
static LLFrameTimer timer;
if (timer.getElapsedTimeF32() < REQUEST_DELTA_TIME)
{
return;
}
timer.reset();
// Send requests
typedef std::set<LLTextureFetchWorker*,LLTextureFetchWorker::Compare> request_list_t;
typedef std::map< LLHost, request_list_t > work_request_map_t;
work_request_map_t requests;
{
LLMutexLock lock2(&mNetworkQueueMutex);
for (queue_t::iterator iter = mNetworkQueue.begin(); iter != mNetworkQueue.end(); )
{
queue_t::iterator curiter = iter++;
LLTextureFetchWorker* req = getWorker(*curiter);
if (!req)
{
mNetworkQueue.erase(curiter);
continue; // paranoia
}
if ((req->mState != LLTextureFetchWorker::LOAD_FROM_NETWORK) &&
(req->mState != LLTextureFetchWorker::LOAD_FROM_SIMULATOR))
{
// We already received our URL, remove from the queue
llwarns << "Worker: " << req->mID << " in mNetworkQueue but in wrong state: " << req->mState << llendl;
mNetworkQueue.erase(curiter);
continue;
}
if (req->mID == mDebugID)
{
mDebugCount++; // for setting breakpoints
}
if (req->mSentRequest == LLTextureFetchWorker::SENT_SIM &&
req->mTotalPackets > 0 &&
req->mLastPacket >= req->mTotalPackets-1)
{
// We have all the packets... make sure this is high priority
// req->setPriority(LLWorkerThread::PRIORITY_HIGH | req->mWorkPriority);
continue;
}
F32 elapsed = req->mRequestedTimer.getElapsedTimeF32();
{
F32 delta_priority = llabs(req->mRequestedPriority - req->mImagePriority);
if ((req->mSimRequestedDiscard != req->mDesiredDiscard) ||
(delta_priority > MIN_DELTA_PRIORITY && elapsed >= MIN_REQUEST_TIME) ||
(elapsed >= SIM_LAZY_FLUSH_TIMEOUT))
{
requests[req->mHost].insert(req);
}
}
}
}
for (work_request_map_t::iterator iter1 = requests.begin();
iter1 != requests.end(); ++iter1)
{
LLHost host = iter1->first;
// invalid host = use agent host
if (host == LLHost::invalid)
{
host = gAgent.getRegionHost();
}
S32 sim_request_count = 0;
for (request_list_t::iterator iter2 = iter1->second.begin();
iter2 != iter1->second.end(); ++iter2)
{
LLTextureFetchWorker* req = *iter2;
if (gMessageSystem)
{
if (req->mSentRequest != LLTextureFetchWorker::SENT_SIM)
{
// Initialize packet data based on data read from cache
req->lockWorkMutex();
req->setupPacketData();
req->unlockWorkMutex();
}
if (0 == sim_request_count)
{
gMessageSystem->newMessageFast(_PREHASH_RequestImage);
gMessageSystem->nextBlockFast(_PREHASH_AgentData);
gMessageSystem->addUUIDFast(_PREHASH_AgentID, gAgent.getID());
gMessageSystem->addUUIDFast(_PREHASH_SessionID, gAgent.getSessionID());
}
S32 packet = req->mLastPacket + 1;
gMessageSystem->nextBlockFast(_PREHASH_RequestImage);
gMessageSystem->addUUIDFast(_PREHASH_Image, req->mID);
gMessageSystem->addS8Fast(_PREHASH_DiscardLevel, (S8)req->mDesiredDiscard);
gMessageSystem->addF32Fast(_PREHASH_DownloadPriority, req->mImagePriority);
gMessageSystem->addU32Fast(_PREHASH_Packet, packet);
gMessageSystem->addU8Fast(_PREHASH_Type, req->mType);
// llinfos << "IMAGE REQUEST: " << req->mID << " Discard: " << req->mDesiredDiscard
// << " Packet: " << packet << " Priority: " << req->mImagePriority << llendl;
static LLCachedControl<bool> log_to_viewer_log(gSavedSettings,"LogTextureDownloadsToViewerLog");
static LLCachedControl<bool> log_to_sim(gSavedSettings,"LogTextureDownloadsToSimulator");
if (log_to_viewer_log || log_to_sim)
{
mTextureInfo.setRequestStartTime(req->mID, LLTimer::getTotalTime());
mTextureInfo.setRequestOffset(req->mID, 0);
mTextureInfo.setRequestSize(req->mID, 0);
mTextureInfo.setRequestType(req->mID, LLTextureInfoDetails::REQUEST_TYPE_UDP);
}
req->lockWorkMutex();
req->mSentRequest = LLTextureFetchWorker::SENT_SIM;
req->mSimRequestedDiscard = req->mDesiredDiscard;
req->mRequestedPriority = req->mImagePriority;
req->mRequestedTimer.reset();
req->unlockWorkMutex();
sim_request_count++;
if (sim_request_count >= IMAGES_PER_REQUEST)
{
// llinfos << "REQUESTING " << sim_request_count << " IMAGES FROM HOST: " << host.getIPString() << llendl;
gMessageSystem->sendSemiReliable(host, NULL, NULL);
sim_request_count = 0;
}
}
}
if (gMessageSystem && sim_request_count > 0 && sim_request_count < IMAGES_PER_REQUEST)
{
// llinfos << "REQUESTING " << sim_request_count << " IMAGES FROM HOST: " << host.getIPString() << llendl;
gMessageSystem->sendSemiReliable(host, NULL, NULL);
sim_request_count = 0;
}
}
// Send cancelations
{
LLMutexLock lock2(&mNetworkQueueMutex);
if (gMessageSystem && !mCancelQueue.empty())
{
for (cancel_queue_t::iterator iter1 = mCancelQueue.begin();
iter1 != mCancelQueue.end(); ++iter1)
{
LLHost host = iter1->first;
if (host == LLHost::invalid)
{
host = gAgent.getRegionHost();
}
S32 request_count = 0;
for (queue_t::iterator iter2 = iter1->second.begin();
iter2 != iter1->second.end(); ++iter2)
{
if (0 == request_count)
{
gMessageSystem->newMessageFast(_PREHASH_RequestImage);
gMessageSystem->nextBlockFast(_PREHASH_AgentData);
gMessageSystem->addUUIDFast(_PREHASH_AgentID, gAgent.getID());
gMessageSystem->addUUIDFast(_PREHASH_SessionID, gAgent.getSessionID());
}
gMessageSystem->nextBlockFast(_PREHASH_RequestImage);
gMessageSystem->addUUIDFast(_PREHASH_Image, *iter2);
gMessageSystem->addS8Fast(_PREHASH_DiscardLevel, -1);
gMessageSystem->addF32Fast(_PREHASH_DownloadPriority, 0);
gMessageSystem->addU32Fast(_PREHASH_Packet, 0);
gMessageSystem->addU8Fast(_PREHASH_Type, 0);
// llinfos << "CANCELING IMAGE REQUEST: " << (*iter2) << llendl;
request_count++;
if (request_count >= IMAGES_PER_REQUEST)
{
gMessageSystem->sendSemiReliable(host, NULL, NULL);
request_count = 0;
}
}
if (request_count > 0 && request_count < IMAGES_PER_REQUEST)
{
gMessageSystem->sendSemiReliable(host, NULL, NULL);
}
}
mCancelQueue.clear();
}
}
}
//////////////////////////////////////////////////////////////////////////////
bool LLTextureFetchWorker::insertPacket(S32 index, U8* data, S32 size)
{
mRequestedTimer.reset();
if (index >= mTotalPackets)
{
// llwarns << "Received Image Packet " << index << " > max: " << mTotalPackets << " for image: " << mID << llendl;
return false;
}
if (index > 0 && index < mTotalPackets-1 && size != MAX_IMG_PACKET_SIZE)
{
// llwarns << "Received bad sized packet: " << index << ", " << size << " != " << MAX_IMG_PACKET_SIZE << " for image: " << mID << llendl;
return false;
}
if (index >= (S32)mPackets.size())
{
mPackets.resize(index+1, (PacketData*)NULL); // initializes v to NULL pointers
}
else if (mPackets[index] != NULL)
{
// llwarns << "Received duplicate packet: " << index << " for image: " << mID << llendl;
return false;
}
mPackets[index] = new PacketData(data, size);
while (mLastPacket+1 < (S32)mPackets.size() && mPackets[mLastPacket+1] != NULL)
{
++mLastPacket;
}
return true;
}
bool LLTextureFetch::receiveImageHeader(const LLHost& host, const LLUUID& id, U8 codec, U16 packets, U32 totalbytes,
U16 data_size, U8* data)
{
LLTextureFetchWorker* worker = getWorker(id);
bool res = true;
++mPacketCount;
if (!worker)
{
// llwarns << "Received header for non active worker: " << id << llendl;
res = false;
}
else if (worker->mState != LLTextureFetchWorker::LOAD_FROM_NETWORK ||
worker->mSentRequest != LLTextureFetchWorker::SENT_SIM)
{
// llwarns << "receiveImageHeader for worker: " << id
// << " in state: " << LLTextureFetchWorker::sStateDescs[worker->mState]
// << " sent: " << worker->mSentRequest << llendl;
res = false;
}
else if (worker->mLastPacket != -1)
{
// check to see if we've gotten this packet before
// llwarns << "Received duplicate header for: " << id << llendl;
res = false;
}
else if (!data_size)
{
// llwarns << "Img: " << id << ":" << " Empty Image Header" << llendl;
res = false;
}
if (!res)
{
++mBadPacketCount;
mNetworkQueueMutex.lock() ;
mCancelQueue[host].insert(id);
mNetworkQueueMutex.unlock() ;
return false;
}
worker->lockWorkMutex();
// Copy header data into image object
worker->mImageCodec = codec;
worker->mTotalPackets = packets;
worker->mFileSize = (S32)totalbytes;
llassert_always(totalbytes > 0);
llassert_always(data_size == FIRST_PACKET_SIZE || data_size == worker->mFileSize);
res = worker->insertPacket(0, data, data_size);
worker->setPriority(LLWorkerThread::PRIORITY_HIGH | worker->mWorkPriority);
worker->mState = LLTextureFetchWorker::LOAD_FROM_SIMULATOR;
worker->unlockWorkMutex();
return res;
}
bool LLTextureFetch::receiveImagePacket(const LLHost& host, const LLUUID& id, U16 packet_num, U16 data_size, U8* data)
{
LLTextureFetchWorker* worker = getWorker(id);
bool res = true;
++mPacketCount;
if (!worker)
{
// llwarns << "Received packet " << packet_num << " for non active worker: " << id << llendl;
res = false;
}
else if (worker->mLastPacket == -1)
{
// llwarns << "Received packet " << packet_num << " before header for: " << id << llendl;
res = false;
}
else if (!data_size)
{
// llwarns << "Img: " << id << ":" << " Empty Image Header" << llendl;
res = false;
}
if (!res)
{
++mBadPacketCount;
mNetworkQueueMutex.lock() ;
mCancelQueue[host].insert(id);
mNetworkQueueMutex.unlock() ;
return false;
}
worker->lockWorkMutex();
res = worker->insertPacket(packet_num, data, data_size);
if ((worker->mState == LLTextureFetchWorker::LOAD_FROM_SIMULATOR) ||
(worker->mState == LLTextureFetchWorker::LOAD_FROM_NETWORK))
{
worker->setPriority(LLWorkerThread::PRIORITY_HIGH | worker->mWorkPriority);
worker->mState = LLTextureFetchWorker::LOAD_FROM_SIMULATOR;
}
else
{
// llwarns << "receiveImagePacket " << packet_num << "/" << worker->mLastPacket << " for worker: " << id
// << " in state: " << LLTextureFetchWorker::sStateDescs[worker->mState] << llendl;
removeFromNetworkQueue(worker, true); // failsafe
}
if(packet_num >= (worker->mTotalPackets - 1))
{
static LLCachedControl<bool> log_to_viewer_log(gSavedSettings,"LogTextureDownloadsToViewerLog");
static LLCachedControl<bool> log_to_sim(gSavedSettings,"LogTextureDownloadsToSimulator");
if (log_to_viewer_log || log_to_sim)
{
U64 timeNow = LLTimer::getTotalTime();
mTextureInfo.setRequestSize(id, worker->mFileSize);
mTextureInfo.setRequestCompleteTimeAndLog(id, timeNow);
}
}
worker->unlockWorkMutex();
return res;
}
//////////////////////////////////////////////////////////////////////////////
BOOL LLTextureFetch::isFromLocalCache(const LLUUID& id)
{
BOOL from_cache = FALSE ;
LLTextureFetchWorker* worker = getWorker(id);
if (worker)
{
worker->lockWorkMutex() ;
from_cache = worker->mInLocalCache ;
worker->unlockWorkMutex() ;
}
return from_cache ;
}
S32 LLTextureFetch::getFetchState(const LLUUID& id, F32& data_progress_p, F32& requested_priority_p,
U32& fetch_priority_p, F32& fetch_dtime_p, F32& request_dtime_p, bool& can_use_http)
{
S32 state = LLTextureFetchWorker::INVALID;
F32 data_progress = 0.0f;
F32 requested_priority = 0.0f;
F32 fetch_dtime = 999999.f;
F32 request_dtime = 999999.f;
U32 fetch_priority = 0;
LLTextureFetchWorker* worker = getWorker(id);
if (worker && worker->haveWork())
{
worker->lockWorkMutex();
state = worker->mState;
fetch_dtime = worker->mFetchTimer.getElapsedTimeF32();
request_dtime = worker->mRequestedTimer.getElapsedTimeF32();
if (worker->mFileSize > 0)
{
if (state == LLTextureFetchWorker::LOAD_FROM_SIMULATOR)
{
S32 data_size = FIRST_PACKET_SIZE + (worker->mLastPacket-1) * MAX_IMG_PACKET_SIZE;
data_size = llmax(data_size, 0);
data_progress = (F32)data_size / (F32)worker->mFileSize;
}
else if (worker->mFormattedImage.notNull())
{
data_progress = (F32)worker->mFormattedImage->getDataSize() / (F32)worker->mFileSize;
}
}
if (state >= LLTextureFetchWorker::LOAD_FROM_NETWORK && state <= LLTextureFetchWorker::WAIT_HTTP_REQ)
{
requested_priority = worker->mRequestedPriority;
}
else
{
requested_priority = worker->mImagePriority;
}
fetch_priority = worker->getPriority();
can_use_http = worker->getCanUseHTTP() ;
worker->unlockWorkMutex();
}
data_progress_p = data_progress;
requested_priority_p = requested_priority;
fetch_priority_p = fetch_priority;
fetch_dtime_p = fetch_dtime;
request_dtime_p = request_dtime;
return state;
}
void LLTextureFetch::dump()
{
llinfos << "LLTextureFetch REQUESTS:" << llendl;
for (request_queue_t::iterator iter = mRequestQueue.begin();
iter != mRequestQueue.end(); ++iter)
{
LLQueuedThread::QueuedRequest* qreq = *iter;
LLWorkerThread::WorkRequest* wreq = (LLWorkerThread::WorkRequest*)qreq;
LLTextureFetchWorker* worker = (LLTextureFetchWorker*)wreq->getWorkerClass();
llinfos << " ID: " << worker->mID
<< " PRI: " << llformat("0x%08x",wreq->getPriority())
<< " STATE: " << worker->sStateDescs[worker->mState]
<< llendl;
}
}
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