/** * @file llhttpassetstorage.cpp * @brief Subclass capable of loading asset data to/from an external * source. Currently, a web server accessed via curl * * $LicenseInfo:firstyear=2003&license=viewergpl$ * * 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 "llhttpassetstorage.h" #include #include "indra_constants.h" #include "message.h" #include "llvfile.h" #include "llvfs.h" #ifdef LL_STANDALONE # include #else # include "zlib/zlib.h" #endif const U32 MAX_RUNNING_REQUESTS = 1; const F32 MAX_PROCESSING_TIME = 0.005f; const S32 CURL_XFER_BUFFER_SIZE = 65536; // Try for 30 minutes for now. const F32 GET_URL_TO_FILE_TIMEOUT = 1800.0f; const S32 COMPRESSED_INPUT_BUFFER_SIZE = 4096; const S32 HTTP_OK = 200; const S32 HTTP_PUT_OK = 201; const S32 HTTP_NO_CONTENT = 204; const S32 HTTP_MISSING = 404; const S32 HTTP_SERVER_BAD_GATEWAY = 502; const S32 HTTP_SERVER_TEMP_UNAVAILABLE = 503; ///////////////////////////////////////////////////////////////////////////////// // LLTempAssetData // An asset not stored on central asset store, but on a simulator node somewhere. ///////////////////////////////////////////////////////////////////////////////// struct LLTempAssetData { LLUUID mAssetID; LLUUID mAgentID; std::string mHostName; }; ///////////////////////////////////////////////////////////////////////////////// // LLHTTPAssetRequest ///////////////////////////////////////////////////////////////////////////////// class LLHTTPAssetRequest : public LLAssetRequest { public: LLHTTPAssetRequest(LLHTTPAssetStorage *asp, const LLUUID &uuid, LLAssetType::EType type, LLAssetStorage::ERequestType rt, const std::string& url, CURLM *curl_multi); virtual ~LLHTTPAssetRequest(); void setupCurlHandle(); void cleanupCurlHandle(); void prepareCompressedUpload(); void finishCompressedUpload(); size_t readCompressedData(void* data, size_t size); static size_t curlCompressedUploadCallback( void *data, size_t size, size_t nmemb, void *user_data); virtual LLSD getTerseDetails() const; virtual LLSD getFullDetails() const; public: LLHTTPAssetStorage *mAssetStoragep; CURL *mCurlHandle; CURLM *mCurlMultiHandle; std::string mURLBuffer; struct curl_slist *mHTTPHeaders; LLVFile *mVFile; LLUUID mTmpUUID; LLAssetStorage::ERequestType mRequestType; bool mZInitialized; z_stream mZStream; char* mZInputBuffer; bool mZInputExhausted; FILE *mFP; }; LLHTTPAssetRequest::LLHTTPAssetRequest(LLHTTPAssetStorage *asp, const LLUUID &uuid, LLAssetType::EType type, LLAssetStorage::ERequestType rt, const std::string& url, CURLM *curl_multi) : LLAssetRequest(uuid, type), mZInitialized(false) { mAssetStoragep = asp; mCurlHandle = NULL; mCurlMultiHandle = curl_multi; mVFile = NULL; mRequestType = rt; mHTTPHeaders = NULL; mFP = NULL; mZInputBuffer = NULL; mZInputExhausted = false; mURLBuffer = url; } LLHTTPAssetRequest::~LLHTTPAssetRequest() { // Cleanup/cancel the request if (mCurlHandle) { curl_multi_remove_handle(mCurlMultiHandle, mCurlHandle); cleanupCurlHandle(); } if (mHTTPHeaders) { curl_slist_free_all(mHTTPHeaders); } delete mVFile; finishCompressedUpload(); } // virtual LLSD LLHTTPAssetRequest::getTerseDetails() const { LLSD sd = LLAssetRequest::getTerseDetails(); sd["url"] = mURLBuffer; return sd; } // virtual LLSD LLHTTPAssetRequest::getFullDetails() const { LLSD sd = LLAssetRequest::getFullDetails(); if (mCurlHandle) { long curl_response = -1; long curl_connect = -1; double curl_total_time = -1.0f; double curl_size_upload = -1.0f; double curl_size_download = -1.0f; long curl_content_length_upload = -1; long curl_content_length_download = -1; long curl_request_size = -1; const char* curl_content_type = NULL; curl_easy_getinfo(mCurlHandle, CURLINFO_HTTP_CODE, &curl_response); curl_easy_getinfo(mCurlHandle, CURLINFO_HTTP_CONNECTCODE, &curl_connect); curl_easy_getinfo(mCurlHandle, CURLINFO_TOTAL_TIME, &curl_total_time); curl_easy_getinfo(mCurlHandle, CURLINFO_SIZE_UPLOAD, &curl_size_upload); curl_easy_getinfo(mCurlHandle, CURLINFO_SIZE_DOWNLOAD, &curl_size_download); curl_easy_getinfo(mCurlHandle, CURLINFO_CONTENT_LENGTH_UPLOAD, &curl_content_length_upload); curl_easy_getinfo(mCurlHandle, CURLINFO_CONTENT_LENGTH_DOWNLOAD, &curl_content_length_download); curl_easy_getinfo(mCurlHandle, CURLINFO_REQUEST_SIZE, &curl_request_size); curl_easy_getinfo(mCurlHandle, CURLINFO_CONTENT_TYPE, &curl_content_type); sd["curl_response_code"] = (int) curl_response; sd["curl_http_connect_code"] = (int) curl_connect; sd["curl_total_time"] = curl_total_time; sd["curl_size_upload"] = curl_size_upload; sd["curl_size_download"] = curl_size_download; sd["curl_content_length_upload"] = (int) curl_content_length_upload; sd["curl_content_length_download"] = (int) curl_content_length_download; sd["curl_request_size"] = (int) curl_request_size; if (curl_content_type) { sd["curl_content_type"] = curl_content_type; } else { sd["curl_content_type"] = ""; } } sd["temp_id"] = mTmpUUID; sd["request_type"] = LLAssetStorage::getRequestName(mRequestType); sd["z_initialized"] = mZInitialized; sd["z_input_exhausted"] = mZInputExhausted; S32 file_size = -1; if (mFP) { struct stat file_stat; int file_desc = fileno(mFP); if ( fstat(file_desc, &file_stat) == 0) { file_size = file_stat.st_size; } } sd["file_size"] = file_size; return sd; } void LLHTTPAssetRequest::setupCurlHandle() { // *NOTE: Similar code exists in mapserver/llcurlutil.cpp JC mCurlHandle = curl_easy_init(); curl_easy_setopt(mCurlHandle, CURLOPT_NOSIGNAL, 1); curl_easy_setopt(mCurlHandle, CURLOPT_NOPROGRESS, 1); curl_easy_setopt(mCurlHandle, CURLOPT_URL, mURLBuffer.c_str()); curl_easy_setopt(mCurlHandle, CURLOPT_PRIVATE, this); if (LLAssetStorage::RT_DOWNLOAD == mRequestType) { curl_easy_setopt(mCurlHandle, CURLOPT_ENCODING, ""); // only do this on downloads, as uploads // to some apache configs (like our test grids) // mistakenly claim the response is gzip'd if the resource // name ends in .gz, even though in a PUT, the response is // just plain HTML saying "created" } /* Remove the Pragma: no-cache header that libcurl inserts by default; we want the cached version, if possible. */ if (mZInitialized) { curl_easy_setopt(mCurlHandle, CURLOPT_PROXY, ""); // disable use of proxy, which can't handle chunked transfers } mHTTPHeaders = curl_slist_append(mHTTPHeaders, "Pragma:"); // bug in curl causes DNS to be cached for too long a time, 0 sets it to never cache DNS results internally (to curl) curl_easy_setopt(mCurlHandle, CURLOPT_DNS_CACHE_TIMEOUT, 0); // resist the temptation to explicitly add the Transfer-Encoding: chunked // header here - invokes a libCURL bug curl_easy_setopt(mCurlHandle, CURLOPT_HTTPHEADER, mHTTPHeaders); if (mAssetStoragep) { // Set the appropriate pending upload or download flag mAssetStoragep->addRunningRequest(mRequestType, this); } else { llerrs << "LLHTTPAssetRequest::setupCurlHandle - No asset storage associated with this request!" << llendl; } } void LLHTTPAssetRequest::cleanupCurlHandle() { curl_easy_cleanup(mCurlHandle); if (mAssetStoragep) { // Terminating a request. Thus upload or download is no longer pending. mAssetStoragep->removeRunningRequest(mRequestType, this); } else { llerrs << "LLHTTPAssetRequest::~LLHTTPAssetRequest - No asset storage associated with this request!" << llendl; } mCurlHandle = NULL; } void LLHTTPAssetRequest::prepareCompressedUpload() { mZStream.next_in = Z_NULL; mZStream.avail_in = 0; mZStream.zalloc = Z_NULL; mZStream.zfree = Z_NULL; mZStream.opaque = Z_NULL; int r = deflateInit2(&mZStream, 1, // compression level Z_DEFLATED, // the only method defined 15 + 16, // the default windowBits + gzip header flag 8, // the default memLevel Z_DEFAULT_STRATEGY); if (r != Z_OK) { llerrs << "LLHTTPAssetRequest::prepareCompressedUpload defalateInit2() failed" << llendl; } mZInitialized = true; mZInputBuffer = new char[COMPRESSED_INPUT_BUFFER_SIZE]; mZInputExhausted = false; mVFile = new LLVFile(gAssetStorage->mVFS, getUUID(), getType(), LLVFile::READ); } void LLHTTPAssetRequest::finishCompressedUpload() { if (mZInitialized) { llinfos << "LLHTTPAssetRequest::finishCompressedUpload: " << "read " << mZStream.total_in << " byte asset file, " << "uploaded " << mZStream.total_out << " byte compressed asset" << llendl; deflateEnd(&mZStream); delete[] mZInputBuffer; } } size_t LLHTTPAssetRequest::readCompressedData(void* data, size_t size) { llassert(mZInitialized); mZStream.next_out = (Bytef*)data; mZStream.avail_out = size; while (mZStream.avail_out > 0) { if (mZStream.avail_in == 0 && !mZInputExhausted) { S32 to_read = llmin(COMPRESSED_INPUT_BUFFER_SIZE, (S32)(mVFile->getSize() - mVFile->tell())); if ( to_read > 0 ) { mVFile->read((U8*)mZInputBuffer, to_read); /*Flawfinder: ignore*/ mZStream.next_in = (Bytef*)mZInputBuffer; mZStream.avail_in = mVFile->getLastBytesRead(); } mZInputExhausted = mZStream.avail_in == 0; } int r = deflate(&mZStream, mZInputExhausted ? Z_FINISH : Z_NO_FLUSH); if (r == Z_STREAM_END || r < 0 || mZInputExhausted) { if (r < 0) { llwarns << "LLHTTPAssetRequest::readCompressedData: deflate returned error code " << (S32) r << llendl; } break; } } return size - mZStream.avail_out; } //static size_t LLHTTPAssetRequest::curlCompressedUploadCallback( void *data, size_t size, size_t nmemb, void *user_data) { size_t num_read = 0; if (gAssetStorage) { CURL *curl_handle = (CURL *)user_data; LLHTTPAssetRequest *req = NULL; curl_easy_getinfo(curl_handle, CURLINFO_PRIVATE, &req); if (req) { num_read = req->readCompressedData(data, size * nmemb); } } return num_read; } ///////////////////////////////////////////////////////////////////////////////// // LLHTTPAssetStorage ///////////////////////////////////////////////////////////////////////////////// LLHTTPAssetStorage::LLHTTPAssetStorage(LLMessageSystem *msg, LLXferManager *xfer, LLVFS *vfs, const LLHost &upstream_host, const std::string& web_host, const std::string& local_web_host, const std::string& host_name) : LLAssetStorage(msg, xfer, vfs, upstream_host) { _init(web_host, local_web_host, host_name); } LLHTTPAssetStorage::LLHTTPAssetStorage(LLMessageSystem *msg, LLXferManager *xfer, LLVFS *vfs, const std::string& web_host, const std::string& local_web_host, const std::string& host_name) : LLAssetStorage(msg, xfer, vfs) { _init(web_host, local_web_host, host_name); } void LLHTTPAssetStorage::_init(const std::string& web_host, const std::string& local_web_host, const std::string& host_name) { mBaseURL = web_host; mLocalBaseURL = local_web_host; mHostName = host_name; // curl_global_init moved to LLCurl::initClass() mCurlMultiHandle = curl_multi_init(); } LLHTTPAssetStorage::~LLHTTPAssetStorage() { curl_multi_cleanup(mCurlMultiHandle); mCurlMultiHandle = NULL; // curl_global_cleanup moved to LLCurl::initClass() } // storing data is simpler than getting it, so we just overload the whole method void LLHTTPAssetStorage::storeAssetData( const LLUUID& uuid, LLAssetType::EType type, LLAssetStorage::LLStoreAssetCallback callback, void* user_data, bool temp_file, bool is_priority, bool store_local, const LLUUID& requesting_agent_id, bool user_waiting, F64 timeout) { if (mVFS->getExists(uuid, type)) // VFS treats nonexistant and zero-length identically { LLAssetRequest *req = new LLAssetRequest(uuid, type); req->mUpCallback = callback; req->mUserData = user_data; req->mRequestingAgentID = requesting_agent_id; req->mIsUserWaiting = user_waiting; req->mTimeout = timeout; // LLAssetStorage metric: Successful Request S32 size = mVFS->getSize(uuid, type); const char *message; if( store_local ) { message = "Added to local upload queue"; } else { message = "Added to upload queue"; } reportMetric( uuid, type, LLStringUtil::null, requesting_agent_id, size, MR_OKAY, __FILE__, __LINE__, message ); // this will get picked up and transmitted in checkForTimeouts if(store_local) { mPendingLocalUploads.push_back(req); } else if(is_priority) { mPendingUploads.push_front(req); } else { mPendingUploads.push_back(req); } } else { llwarns << "AssetStorage: attempt to upload non-existent vfile " << uuid << ":" << LLAssetType::lookup(type) << llendl; if (callback) { // LLAssetStorage metric: Zero size VFS reportMetric( uuid, type, LLStringUtil::null, requesting_agent_id, 0, MR_ZERO_SIZE, __FILE__, __LINE__, "The file didn't exist or was zero length (VFS - can't tell which)" ); callback(uuid, user_data, LL_ERR_ASSET_REQUEST_NONEXISTENT_FILE, LL_EXSTAT_NONEXISTENT_FILE); } } } // virtual void LLHTTPAssetStorage::storeAssetData( const std::string& filename, const LLUUID& asset_id, LLAssetType::EType asset_type, LLStoreAssetCallback callback, void* user_data, bool temp_file, bool is_priority, bool user_waiting, F64 timeout) { llinfos << "LLAssetStorage::storeAssetData (legacy)" << asset_id << ":" << LLAssetType::lookup(asset_type) << llendl; LLLegacyAssetRequest *legacy = new LLLegacyAssetRequest; legacy->mUpCallback = callback; legacy->mUserData = user_data; FILE *fp = LLFile::fopen(filename, "rb"); /*Flawfinder: ignore*/ S32 size = 0; if (fp) { fseek(fp, 0, SEEK_END); size = ftell(fp); fseek(fp, 0, SEEK_SET); } if( size ) { LLVFile file(mVFS, asset_id, asset_type, LLVFile::WRITE); file.setMaxSize(size); const S32 buf_size = 65536; U8 copy_buf[buf_size]; while ((size = (S32)fread(copy_buf, 1, buf_size, fp))) { file.write(copy_buf, size); } fclose(fp); // if this upload fails, the caller needs to setup a new tempfile for us if (temp_file) { LLFile::remove(filename); } // LLAssetStorage metric: Success not needed; handled in the overloaded method here: storeAssetData( asset_id, asset_type, legacyStoreDataCallback, (void**)legacy, temp_file, is_priority, false, LLUUID::null, user_waiting, timeout); } else // !size { if( fp ) { // LLAssetStorage metric: Zero size reportMetric( asset_id, asset_type, filename, LLUUID::null, 0, MR_ZERO_SIZE, __FILE__, __LINE__, "The file was zero length" ); fclose( fp ); } else { // LLAssetStorage metric: Missing File reportMetric( asset_id, asset_type, filename, LLUUID::null, 0, MR_FILE_NONEXIST, __FILE__, __LINE__, "The file didn't exist" ); } if (callback) { callback(LLUUID::null, user_data, LL_ERR_CANNOT_OPEN_FILE, LL_EXSTAT_BLOCKED_FILE); } delete legacy; } } // virtual LLSD LLHTTPAssetStorage::getPendingDetails(LLAssetStorage::ERequestType rt, LLAssetType::EType asset_type, const std::string& detail_prefix) const { LLSD sd = LLAssetStorage::getPendingDetails(rt, asset_type, detail_prefix); const request_list_t* running = getRunningList(rt); if (running) { // Loop through the pending requests sd, and add extra info about its running status. S32 num_pending = sd["requests"].size(); S32 i; for (i = 0; i < num_pending; ++i) { LLSD& pending = sd["requests"][i]; // See if this pending request is running. const LLAssetRequest* req = findRequest(running, LLAssetType::lookup(pending["type"].asString()), pending["asset_id"]); if (req) { // Keep the detail_url so we don't have to rebuild it. LLURI detail_url = pending["detail"]; pending = req->getTerseDetails(); pending["detail"] = detail_url; pending["is_running"] = true; } else { pending["is_running"] = false; } } } return sd; } // virtual LLSD LLHTTPAssetStorage::getPendingRequest(LLAssetStorage::ERequestType rt, LLAssetType::EType asset_type, const LLUUID& asset_id) const { // Look for this asset in the running list first. const request_list_t* running = getRunningList(rt); if (running) { LLSD sd = LLAssetStorage::getPendingRequestImpl(running, asset_type, asset_id); if (sd) { sd["is_running"] = true; return sd; } } LLSD sd = LLAssetStorage::getPendingRequest(rt, asset_type, asset_id); if (sd) { sd["is_running"] = false; } return sd; } // virtual bool LLHTTPAssetStorage::deletePendingRequest(LLAssetStorage::ERequestType rt, LLAssetType::EType asset_type, const LLUUID& asset_id) { // Try removing this from the running list first. request_list_t* running = getRunningList(rt); if (running) { LLAssetRequest* req = findRequest(running, asset_type, asset_id); if (req) { // Remove this request from the running list to get it out of curl. running->remove(req); // Find this request in the pending list, so we can move it to the end of the line. request_list_t* pending = getRequestList(rt); if (pending) { request_list_t::iterator result = std::find_if(pending->begin(), pending->end(), std::bind2nd(ll_asset_request_equal(), req)); if (pending->end() != result) { // This request was found in the pending list. Move it to the end! LLAssetRequest* pending_req = *result; pending->remove(pending_req); if (!pending_req->mIsUserWaiting) //A user is waiting on this request. Toss it. { pending->push_back(pending_req); } else { if (pending_req->mUpCallback) //Clean up here rather than _callUploadCallbacks because this request is already cleared the req. { pending_req->mUpCallback(pending_req->getUUID(), pending_req->mUserData, -1, LL_EXSTAT_REQUEST_DROPPED); } } llinfos << "Asset " << getRequestName(rt) << " request for " << asset_id << "." << LLAssetType::lookup(asset_type) << " removed from curl and placed at the end of the pending queue." << llendl; } else { llwarns << "Unable to find pending " << getRequestName(rt) << " request for " << asset_id << "." << LLAssetType::lookup(asset_type) << llendl; } } delete req; return true; } } return LLAssetStorage::deletePendingRequest(rt, asset_type, asset_id); } // internal requester, used by getAssetData in superclass void LLHTTPAssetStorage::_queueDataRequest(const LLUUID& uuid, LLAssetType::EType type, void (*callback)(LLVFS *vfs, const LLUUID&, LLAssetType::EType, void *, S32, LLExtStat), void *user_data, BOOL duplicate, BOOL is_priority) { // stash the callback info so we can find it after we get the response message LLAssetRequest *req = new LLAssetRequest(uuid, type); req->mDownCallback = callback; req->mUserData = user_data; req->mIsPriority = is_priority; // this will get picked up and downloaded in checkForTimeouts // // HAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAACK! Asset requests were taking too long and timing out. // Since texture requests are the LEAST sensitive (on the simulator) to being delayed, add // non-texture requests to the front, and add texture requests to the back. The theory is // that we always want them first, even if they're out of order. // if (req->getType() == LLAssetType::AT_TEXTURE) { mPendingDownloads.push_back(req); } else { mPendingDownloads.push_front(req); } } LLAssetRequest* LLHTTPAssetStorage::findNextRequest(LLAssetStorage::request_list_t& pending, LLAssetStorage::request_list_t& running) { // Early exit if the running list is full, or we don't have more pending than running. if (running.size() >= MAX_RUNNING_REQUESTS || pending.size() <= running.size()) return NULL; // Look for the first pending request that is not already running. request_list_t::iterator running_begin = running.begin(); request_list_t::iterator running_end = running.end(); request_list_t::iterator pending_iter = pending.begin(); // FIXME onefang - I assume this was being used to speed up the for(), but this is just a quick pass to get rid of warnings. Try to understand it later. //request_list_t::iterator pending_end = pending.end(); // Loop over all pending requests until we miss finding it in the running list. for (; pending_iter != pending.end(); ++pending_iter) { LLAssetRequest* req = *pending_iter; // Look for this pending request in the running list. if (running_end == std::find_if(running_begin, running_end, std::bind2nd(ll_asset_request_equal(), req))) { // It isn't running! Return it. return req; } } return NULL; } // overloaded to additionally move data to/from the webserver void LLHTTPAssetStorage::checkForTimeouts() { CURLMcode mcode; LLAssetRequest *req; while ( (req = findNextRequest(mPendingDownloads, mRunningDownloads)) ) { // Setup this curl download request // We need to generate a new request here // since the one in the list could go away std::string tmp_url; std::string uuid_str; req->getUUID().toString(uuid_str); std::string base_url = getBaseURL(req->getUUID(), req->getType()); tmp_url = llformat("%s/%36s.%s", base_url.c_str() , uuid_str.c_str(), LLAssetType::lookup(req->getType())); LLHTTPAssetRequest *new_req = new LLHTTPAssetRequest(this, req->getUUID(), req->getType(), RT_DOWNLOAD, tmp_url, mCurlMultiHandle); new_req->mTmpUUID.generate(); // Sets pending download flag internally new_req->setupCurlHandle(); curl_easy_setopt(new_req->mCurlHandle, CURLOPT_FOLLOWLOCATION, TRUE); curl_easy_setopt(new_req->mCurlHandle, CURLOPT_WRITEFUNCTION, &curlDownCallback); curl_easy_setopt(new_req->mCurlHandle, CURLOPT_WRITEDATA, new_req->mCurlHandle); mcode = curl_multi_add_handle(mCurlMultiHandle, new_req->mCurlHandle); if (mcode > CURLM_OK) { // Failure. Deleting the pending request will remove it from the running // queue, and push it to the end of the pending queue. new_req->cleanupCurlHandle(); deletePendingRequest(RT_DOWNLOAD, new_req->getType(), new_req->getUUID()); break; } else { llinfos << "Requesting " << new_req->mURLBuffer << llendl; } } while ( (req = findNextRequest(mPendingUploads, mRunningUploads)) ) { // setup this curl upload request bool do_compress = req->getType() == LLAssetType::AT_OBJECT; std::string tmp_url; std::string uuid_str; req->getUUID().toString(uuid_str); tmp_url = mBaseURL + "/" + uuid_str + "." + LLAssetType::lookup(req->getType()); if (do_compress) tmp_url += ".gz"; LLHTTPAssetRequest *new_req = new LLHTTPAssetRequest(this, req->getUUID(), req->getType(), RT_UPLOAD, tmp_url, mCurlMultiHandle); if (req->mIsUserWaiting) //If a user is waiting on a realtime response, we want to perserve information across upload attempts. { new_req->mTime = req->mTime; new_req->mTimeout = req->mTimeout; new_req->mIsUserWaiting = req->mIsUserWaiting; } if (do_compress) { new_req->prepareCompressedUpload(); } // Sets pending upload flag internally new_req->setupCurlHandle(); curl_easy_setopt(new_req->mCurlHandle, CURLOPT_UPLOAD, 1); curl_easy_setopt(new_req->mCurlHandle, CURLOPT_WRITEFUNCTION, &nullOutputCallback); if (do_compress) { curl_easy_setopt(new_req->mCurlHandle, CURLOPT_READFUNCTION, &LLHTTPAssetRequest::curlCompressedUploadCallback); } else { LLVFile file(mVFS, req->getUUID(), req->getType()); curl_easy_setopt(new_req->mCurlHandle, CURLOPT_INFILESIZE, file.getSize()); curl_easy_setopt(new_req->mCurlHandle, CURLOPT_READFUNCTION, &curlUpCallback); } curl_easy_setopt(new_req->mCurlHandle, CURLOPT_READDATA, new_req->mCurlHandle); mcode = curl_multi_add_handle(mCurlMultiHandle, new_req->mCurlHandle); if (mcode > CURLM_OK) { // Failure. Deleting the pending request will remove it from the running // queue, and push it to the end of the pending queue. new_req->cleanupCurlHandle(); deletePendingRequest(RT_UPLOAD, new_req->getType(), new_req->getUUID()); break; } else { // Get the uncompressed file size. LLVFile file(mVFS,new_req->getUUID(),new_req->getType()); S32 size = file.getSize(); llinfos << "Requesting PUT " << new_req->mURLBuffer << ", asset size: " << size << " bytes" << llendl; if (size == 0) { llwarns << "Rejecting zero size PUT request!" << llendl; new_req->cleanupCurlHandle(); deletePendingRequest(RT_UPLOAD, new_req->getType(), new_req->getUUID()); } } // Pending upload will have been flagged by the request } while ( (req = findNextRequest(mPendingLocalUploads, mRunningLocalUploads)) ) { // setup this curl upload request LLVFile file(mVFS, req->getUUID(), req->getType()); std::string tmp_url; std::string uuid_str; req->getUUID().toString(uuid_str); // KLW - All temporary uploads are saved locally "http://localhost:12041/asset" tmp_url = llformat("%s/%36s.%s", mLocalBaseURL.c_str(), uuid_str.c_str(), LLAssetType::lookup(req->getType())); LLHTTPAssetRequest *new_req = new LLHTTPAssetRequest(this, req->getUUID(), req->getType(), RT_LOCALUPLOAD, tmp_url, mCurlMultiHandle); new_req->mRequestingAgentID = req->mRequestingAgentID; // Sets pending upload flag internally new_req->setupCurlHandle(); curl_easy_setopt(new_req->mCurlHandle, CURLOPT_PUT, 1); curl_easy_setopt(new_req->mCurlHandle, CURLOPT_INFILESIZE, file.getSize()); curl_easy_setopt(new_req->mCurlHandle, CURLOPT_WRITEFUNCTION, &nullOutputCallback); curl_easy_setopt(new_req->mCurlHandle, CURLOPT_READFUNCTION, &curlUpCallback); curl_easy_setopt(new_req->mCurlHandle, CURLOPT_READDATA, new_req->mCurlHandle); mcode = curl_multi_add_handle(mCurlMultiHandle, new_req->mCurlHandle); if (mcode > CURLM_OK) { // Failure. Deleting the pending request will remove it from the running // queue, and push it to the end of the pending queue. new_req->cleanupCurlHandle(); deletePendingRequest(RT_LOCALUPLOAD, new_req->getType(), new_req->getUUID()); break; } else { // Get the uncompressed file size. S32 size = file.getSize(); llinfos << "TAT: LLHTTPAssetStorage::checkForTimeouts() : pending local!" << " Requesting PUT " << new_req->mURLBuffer << ", asset size: " << size << " bytes" << llendl; if (size == 0) { llwarns << "Rejecting zero size PUT request!" << llendl; new_req->cleanupCurlHandle(); deletePendingRequest(RT_UPLOAD, new_req->getType(), new_req->getUUID()); } } // Pending upload will have been flagged by the request } S32 count = 0; int queue_length; do { mcode = curl_multi_perform(mCurlMultiHandle, &queue_length); count++; } while (mcode == CURLM_CALL_MULTI_PERFORM && (count < 5)); CURLMsg *curl_msg; do { curl_msg = curl_multi_info_read(mCurlMultiHandle, &queue_length); if (curl_msg && curl_msg->msg == CURLMSG_DONE) { long curl_result = 0; S32 xfer_result = LL_ERR_NOERR; LLHTTPAssetRequest *req = NULL; curl_easy_getinfo(curl_msg->easy_handle, CURLINFO_PRIVATE, &req); // TODO: Throw curl_result at all callbacks. curl_easy_getinfo(curl_msg->easy_handle, CURLINFO_HTTP_CODE, &curl_result); if (RT_UPLOAD == req->mRequestType || RT_LOCALUPLOAD == req->mRequestType) { if (curl_msg->data.result == CURLE_OK && ( curl_result == HTTP_OK || curl_result == HTTP_PUT_OK || curl_result == HTTP_NO_CONTENT)) { llinfos << "Success uploading " << req->getUUID() << " to " << req->mURLBuffer << llendl; if (RT_LOCALUPLOAD == req->mRequestType) { addTempAssetData(req->getUUID(), req->mRequestingAgentID, mHostName); } } else if (curl_msg->data.result == CURLE_COULDNT_CONNECT || curl_msg->data.result == CURLE_OPERATION_TIMEOUTED || curl_result == HTTP_SERVER_BAD_GATEWAY || curl_result == HTTP_SERVER_TEMP_UNAVAILABLE) { llwarns << "Re-requesting upload for " << req->getUUID() << ". Received upload error to " << req->mURLBuffer << " with result " << curl_easy_strerror(curl_msg->data.result) << ", http result " << curl_result << llendl; ////HACK (probably) I am sick of this getting requeued and driving me mad. //if (req->mIsUserWaiting) //{ // deletePendingRequest(RT_UPLOAD, req->getType(), req->getUUID()); //} } else { llwarns << "Failure uploading " << req->getUUID() << " to " << req->mURLBuffer << " with result " << curl_easy_strerror(curl_msg->data.result) << ", http result " << curl_result << llendl; xfer_result = LL_ERR_ASSET_REQUEST_FAILED; } if (!(curl_msg->data.result == CURLE_COULDNT_CONNECT || curl_msg->data.result == CURLE_OPERATION_TIMEOUTED || curl_result == HTTP_SERVER_BAD_GATEWAY || curl_result == HTTP_SERVER_TEMP_UNAVAILABLE)) { // shared upload finished callback // in the base class, this is called from processUploadComplete _callUploadCallbacks(req->getUUID(), req->getType(), (xfer_result == 0), LL_EXSTAT_CURL_RESULT | curl_result); // Pending upload flag will get cleared when the request is deleted } } else if (RT_DOWNLOAD == req->mRequestType) { if (curl_result == HTTP_OK && curl_msg->data.result == CURLE_OK) { if (req->mVFile && req->mVFile->getSize() > 0) { llinfos << "Success downloading " << req->mURLBuffer << ", size " << req->mVFile->getSize() << llendl; req->mVFile->rename(req->getUUID(), req->getType()); } else { // *TODO: if this actually indicates a bad asset on the server // (not certain at this point), then delete it llwarns << "Found " << req->mURLBuffer << " to be zero size" << llendl; xfer_result = LL_ERR_ASSET_REQUEST_NOT_IN_DATABASE; } } else { // KLW - TAT See if an avatar owns this texture, and if so request re-upload. llwarns << "Failure downloading " << req->mURLBuffer << " with result " << curl_easy_strerror(curl_msg->data.result) << ", http result " << curl_result << llendl; xfer_result = (curl_result == HTTP_MISSING) ? LL_ERR_ASSET_REQUEST_NOT_IN_DATABASE : LL_ERR_ASSET_REQUEST_FAILED; if (req->mVFile) { req->mVFile->remove(); } } // call the static callback for transfer completion // this will cleanup all requests for this asset, including ours downloadCompleteCallback( xfer_result, req->getUUID(), req->getType(), (void *)req, LL_EXSTAT_CURL_RESULT | curl_result); // Pending download flag will get cleared when the request is deleted } else { // nothing, just axe this request // currently this can only mean an asset delete } // Deleting clears the pending upload/download flag if it's set and the request is transferring delete req; req = NULL; } } while (curl_msg && queue_length > 0); // Cleanup // We want to bump to the back of the line any running uploads that have timed out. bumpTimedOutUploads(); LLAssetStorage::checkForTimeouts(); } void LLHTTPAssetStorage::bumpTimedOutUploads() { bool user_waiting=FALSE; F64 mt_secs = LLMessageSystem::getMessageTimeSeconds(); if (mPendingUploads.size()) { request_list_t::iterator it = mPendingUploads.begin(); LLAssetRequest* req = *it; user_waiting=req->mIsUserWaiting; } // No point bumping currently running uploads if there are no others in line. if (!(mPendingUploads.size() > mRunningUploads.size()) && !user_waiting) { return; } // deletePendingRequest will modify the mRunningUploads list so we don't want to iterate over it. request_list_t temp_running = mRunningUploads; request_list_t::iterator it = temp_running.begin(); request_list_t::iterator end = temp_running.end(); for ( ; it != end; ++it) { //request_list_t::iterator curiter = iter++; LLAssetRequest* req = *it; if ( req->mTimeout < (mt_secs - req->mTime) ) { llwarns << "Asset upload request timed out for " << req->getUUID() << "." << LLAssetType::lookup(req->getType()) << ", bumping to the back of the line!" << llendl; deletePendingRequest(RT_UPLOAD, req->getType(), req->getUUID()); } } } // static size_t LLHTTPAssetStorage::curlDownCallback(void *data, size_t size, size_t nmemb, void *user_data) { if (!gAssetStorage) { llwarns << "Missing gAssetStorage, aborting curl download callback!" << llendl; return 0; } S32 bytes = (S32)(size * nmemb); CURL *curl_handle = (CURL *)user_data; LLHTTPAssetRequest *req = NULL; curl_easy_getinfo(curl_handle, CURLINFO_PRIVATE, &req); if (! req->mVFile) { req->mVFile = new LLVFile(gAssetStorage->mVFS, req->mTmpUUID, LLAssetType::AT_NONE, LLVFile::APPEND); } double content_length = 0.0; curl_easy_getinfo(curl_handle, CURLINFO_CONTENT_LENGTH_DOWNLOAD, &content_length); // sanitize content_length, reconcile w/ actual data S32 file_length = llmax(0, (S32)llmin(content_length, 20000000.0), bytes + req->mVFile->getSize()); req->mVFile->setMaxSize(file_length); req->mVFile->write((U8*)data, bytes); return nmemb; } // static size_t LLHTTPAssetStorage::curlUpCallback(void *data, size_t size, size_t nmemb, void *user_data) { if (!gAssetStorage) { llwarns << "Missing gAssetStorage, aborting curl download callback!" << llendl; return 0; } CURL *curl_handle = (CURL *)user_data; LLHTTPAssetRequest *req = NULL; curl_easy_getinfo(curl_handle, CURLINFO_PRIVATE, &req); if (! req->mVFile) { req->mVFile = new LLVFile(gAssetStorage->mVFS, req->getUUID(), req->getType(), LLVFile::READ); } S32 bytes = llmin((S32)(size * nmemb), (S32)(req->mVFile->getSize() - req->mVFile->tell())); req->mVFile->read((U8*)data, bytes);/*Flawfinder: ignore*/ return req->mVFile->getLastBytesRead(); } // static size_t LLHTTPAssetStorage::nullOutputCallback(void *data, size_t size, size_t nmemb, void *user_data) { // do nothing, this is here to soak up script output so it doesn't end up on stdout return nmemb; } // blocking asset fetch which bypasses the VFS // this is a very limited function for use by the simstate loader and other one-offs S32 LLHTTPAssetStorage::getURLToFile(const LLUUID& uuid, LLAssetType::EType asset_type, const std::string &url, const std::string& filename, progress_callback callback, void *userdata) { // *NOTE: There is no guarantee that the uuid and the asset_type match // - not that it matters. - Doug lldebugs << "LLHTTPAssetStorage::getURLToFile() - " << url << llendl; FILE *fp = LLFile::fopen(filename, "wb"); /*Flawfinder: ignore*/ if (! fp) { llwarns << "Failed to open " << filename << " for writing" << llendl; return LL_ERR_ASSET_REQUEST_FAILED; } // make sure we use the normal curl setup, even though we don't really need a request object LLHTTPAssetRequest req(this, uuid, asset_type, RT_DOWNLOAD, url, mCurlMultiHandle); req.mFP = fp; req.setupCurlHandle(); curl_easy_setopt(req.mCurlHandle, CURLOPT_FOLLOWLOCATION, TRUE); curl_easy_setopt(req.mCurlHandle, CURLOPT_WRITEFUNCTION, &curlFileDownCallback); curl_easy_setopt(req.mCurlHandle, CURLOPT_WRITEDATA, req.mCurlHandle); curl_multi_add_handle(mCurlMultiHandle, req.mCurlHandle); llinfos << "Requesting as file " << req.mURLBuffer << llendl; // braindead curl loop int queue_length; CURLMsg *curl_msg; LLTimer timeout; timeout.setTimerExpirySec(GET_URL_TO_FILE_TIMEOUT); bool success = false; S32 xfer_result = 0; do { curl_multi_perform(mCurlMultiHandle, &queue_length); curl_msg = curl_multi_info_read(mCurlMultiHandle, &queue_length); if (callback) { callback(userdata); } if ( curl_msg && (CURLMSG_DONE == curl_msg->msg) ) { success = true; } else if (timeout.hasExpired()) { llwarns << "Request for " << url << " has timed out." << llendl; success = false; xfer_result = LL_ERR_ASSET_REQUEST_FAILED; break; } } while (!success); if (success) { long curl_result = 0; curl_easy_getinfo(curl_msg->easy_handle, CURLINFO_HTTP_CODE, &curl_result); if (curl_result == HTTP_OK && curl_msg->data.result == CURLE_OK) { S32 size = ftell(req.mFP); if (size > 0) { // everything seems to be in order llinfos << "Success downloading " << req.mURLBuffer << " to file, size " << size << llendl; } else { llwarns << "Found " << req.mURLBuffer << " to be zero size" << llendl; xfer_result = LL_ERR_ASSET_REQUEST_FAILED; } } else { xfer_result = curl_result == HTTP_MISSING ? LL_ERR_ASSET_REQUEST_NOT_IN_DATABASE : LL_ERR_ASSET_REQUEST_FAILED; llinfos << "Failure downloading " << req.mURLBuffer << " with result " << curl_easy_strerror(curl_msg->data.result) << ", http result " << curl_result << llendl; } } fclose(fp); if (xfer_result) { LLFile::remove(filename); } return xfer_result; } // static size_t LLHTTPAssetStorage::curlFileDownCallback(void *data, size_t size, size_t nmemb, void *user_data) { CURL *curl_handle = (CURL *)user_data; LLHTTPAssetRequest *req = NULL; curl_easy_getinfo(curl_handle, CURLINFO_PRIVATE, &req); if (! req->mFP) { llwarns << "Missing mFP, aborting curl file download callback!" << llendl; return 0; } return fwrite(data, size, nmemb, req->mFP); } LLAssetStorage::request_list_t* LLHTTPAssetStorage::getRunningList(LLAssetStorage::ERequestType rt) { switch (rt) { case RT_DOWNLOAD: return &mRunningDownloads; case RT_UPLOAD: return &mRunningUploads; case RT_LOCALUPLOAD: return &mRunningLocalUploads; default: return NULL; } } const LLAssetStorage::request_list_t* LLHTTPAssetStorage::getRunningList(LLAssetStorage::ERequestType rt) const { switch (rt) { case RT_DOWNLOAD: return &mRunningDownloads; case RT_UPLOAD: return &mRunningUploads; case RT_LOCALUPLOAD: return &mRunningLocalUploads; default: return NULL; } } void LLHTTPAssetStorage::addRunningRequest(ERequestType rt, LLHTTPAssetRequest* request) { request_list_t* requests = getRunningList(rt); if (requests) { requests->push_back(request); } else { llerrs << "LLHTTPAssetStorage::addRunningRequest - Request is not an upload OR download, this is bad!" << llendl; } } void LLHTTPAssetStorage::removeRunningRequest(ERequestType rt, LLHTTPAssetRequest* request) { request_list_t* requests = getRunningList(rt); if (requests) { requests->remove(request); } else { llerrs << "LLHTTPAssetStorage::removeRunningRequest - Destroyed request is not an upload OR download, this is bad!" << llendl; } } // virtual void LLHTTPAssetStorage::addTempAssetData(const LLUUID& asset_id, const LLUUID& agent_id, const std::string& host_name) { if (agent_id.isNull() || asset_id.isNull()) { llwarns << "TAT: addTempAssetData bad id's asset_id: " << asset_id << " agent_id: " << agent_id << llendl; return; } LLTempAssetData temp_asset_data; temp_asset_data.mAssetID = asset_id; temp_asset_data.mAgentID = agent_id; temp_asset_data.mHostName = host_name; mTempAssets[asset_id] = temp_asset_data; } // virtual BOOL LLHTTPAssetStorage::hasTempAssetData(const LLUUID& texture_id) const { uuid_tempdata_map::const_iterator citer = mTempAssets.find(texture_id); BOOL found = (citer != mTempAssets.end()); return found; } // virtual std::string LLHTTPAssetStorage::getTempAssetHostName(const LLUUID& texture_id) const { uuid_tempdata_map::const_iterator citer = mTempAssets.find(texture_id); if (citer != mTempAssets.end()) { return citer->second.mHostName; } else { return std::string(); } } // virtual LLUUID LLHTTPAssetStorage::getTempAssetAgentID(const LLUUID& texture_id) const { uuid_tempdata_map::const_iterator citer = mTempAssets.find(texture_id); if (citer != mTempAssets.end()) { return citer->second.mAgentID; } else { return LLUUID::null; } } // virtual void LLHTTPAssetStorage::removeTempAssetData(const LLUUID& asset_id) { mTempAssets.erase(asset_id); } // virtual void LLHTTPAssetStorage::removeTempAssetDataByAgentID(const LLUUID& agent_id) { uuid_tempdata_map::iterator it = mTempAssets.begin(); uuid_tempdata_map::iterator end = mTempAssets.end(); while (it != end) { const LLTempAssetData& asset_data = it->second; if (asset_data.mAgentID == agent_id) { mTempAssets.erase(it++); } else { ++it; } } } std::string LLHTTPAssetStorage::getBaseURL(const LLUUID& asset_id, LLAssetType::EType asset_type) { if (LLAssetType::AT_TEXTURE == asset_type) { uuid_tempdata_map::const_iterator citer = mTempAssets.find(asset_id); if (citer != mTempAssets.end()) { const std::string& host_name = citer->second.mHostName; std::string url = llformat(LOCAL_ASSET_URL_FORMAT, host_name.c_str()); return url; } } return mBaseURL; } void LLHTTPAssetStorage::dumpTempAssetData(const LLUUID& avatar_id) const { uuid_tempdata_map::const_iterator it = mTempAssets.begin(); uuid_tempdata_map::const_iterator end = mTempAssets.end(); S32 count = 0; for ( ; it != end; ++it) { const LLTempAssetData& temp_asset_data = it->second; if (avatar_id.isNull() || avatar_id == temp_asset_data.mAgentID) { llinfos << "TAT: dump agent " << temp_asset_data.mAgentID << " texture " << temp_asset_data.mAssetID << " host " << temp_asset_data.mHostName << llendl; count++; } } if (avatar_id.isNull()) { llinfos << "TAT: dumped " << count << " entries for all avatars" << llendl; } else { llinfos << "TAT: dumped " << count << " entries for avatar " << avatar_id << llendl; } } void LLHTTPAssetStorage::clearTempAssetData() { llinfos << "TAT: Clearing temp asset data map" << llendl; mTempAssets.clear(); }