/* * libretroshare/src/ft: ftcontroller.cc * * File Transfer for RetroShare. * * Copyright 2008 by Robert Fernie. * * This library is free software; you can redistribute it and/or * modify it under the terms of the GNU Library General Public * License Version 2 as published by the Free Software Foundation. * * This library is distributed in the hope that it will be useful, * but WITHOUT ANY WARRANTY; without even the implied warranty of * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU * Library General Public License for more details. * * You should have received a copy of the GNU Library General Public * License along with this library; if not, write to the Free Software * Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307 * USA. * * Please report all bugs and problems to "retroshare@lunamutt.com". * */ /* * ftController * * Top level download controller. * * inherits configuration (save downloading files) * inherits pqiMonitor (knows which peers are online). * inherits CacheTransfer (transfers cache files too) * inherits RsThread (to control transfers) * */ #ifdef WINDOWS_SYS #include "util/rsstring.h" #endif #include "util/rsdiscspace.h" #include "util/rsmemory.h" #include "ft/ftcontroller.h" #include "ft/ftfilecreator.h" #include "ft/fttransfermodule.h" #include "ft/ftsearch.h" #include "ft/ftdatamultiplex.h" #include "ft/ftextralist.h" #include "ft/ftserver.h" #include "turtle/p3turtle.h" #include "util/rsdir.h" #include "rsserver/p3face.h" #include "pqi/p3linkmgr.h" #include "retroshare/rsiface.h" #include "retroshare/rspeers.h" #include "rsitems/rsconfigitems.h" #include #include /* for (u)sleep() */ #include /****** * #define CONTROL_DEBUG 1 * #define DEBUG_DWLQUEUE 1 *****/ static const int32_t SAVE_TRANSFERS_DELAY = 301 ; // save transfer progress every 301 seconds. static const int32_t INACTIVE_CHUNKS_CHECK_DELAY = 240 ; // time after which an inactive chunk is released static const int32_t MAX_TIME_INACTIVE_REQUEUED = 120 ; // time after which an inactive ftFileControl is bt-queued static const int32_t FT_FILECONTROL_QUEUE_ADD_END = 0 ; static const int32_t FT_FILECONTROL_MAX_UPLOAD_SLOTS_DEFAULT= 0 ; const uint32_t FT_CNTRL_STANDARD_RATE = 10 * 1024 * 1024; const uint32_t FT_CNTRL_SLOW_RATE = 100 * 1024; ftFileControl::ftFileControl() :mTransfer(NULL), mCreator(NULL), mState(DOWNLOADING), mSize(0), mFlags(0), mCreateTime(0), mQueuePriority(0), mQueuePosition(0) { return; } ftFileControl::ftFileControl(std::string fname, std::string tmppath, std::string dest, uint64_t size, const RsFileHash &hash, TransferRequestFlags flags, ftFileCreator *fc, ftTransferModule *tm) :mName(fname), mCurrentPath(tmppath), mDestination(dest), mTransfer(tm), mCreator(fc), mState(DOWNLOADING), mHash(hash), mSize(size), mFlags(flags), mCreateTime(0), mQueuePriority(0), mQueuePosition(0) { return; } ftController::ftController(ftDataMultiplex *dm, p3ServiceControl *sc, uint32_t ftServiceId) : p3Config(), last_save_time(0), last_clean_time(0), mSearch(NULL), mDataplex(dm), mExtraList(NULL), mTurtle(NULL), mFtServer(NULL), mServiceCtrl(sc), mFtServiceType(ftServiceId), mDefaultEncryptionPolicy(RS_FILE_CTRL_ENCRYPTION_POLICY_PERMISSIVE), mFilePermDirectDLPolicy(RS_FILE_PERM_DIRECT_DL_PER_USER), cnt(0), ctrlMutex("ftController"), doneMutex("ftController"), mFtActive(false), mFtPendingDone(false), mDefaultChunkStrategy(FileChunksInfo::CHUNK_STRATEGY_PROGRESSIVE), _max_active_downloads(5), // default queue size _max_uploads_per_friend(FT_FILECONTROL_MAX_UPLOAD_SLOTS_DEFAULT) { } void ftController::setTurtleRouter(p3turtle *pt) { mTurtle = pt ; } void ftController::setFtServer(ftServer *ft) { mFtServer = ft ; } void ftController::setFtSearchNExtra(ftSearch *search, ftExtraList *list) { mSearch = search; mExtraList = list; } bool ftController::getFileDownloadChunksDetails(const RsFileHash& hash,FileChunksInfo& info) { RsStackMutex stack(ctrlMutex); /******* LOCKED ********/ std::map::iterator it = mDownloads.find(hash) ; if(it != mDownloads.end()) { it->second->mCreator->getChunkMap(info) ; //info.flags = it->second->mFlags ; return true ; } it = mCompleted.find(hash) ; if(it != mCompleted.end()) { // This should rather be done as a static method of ChunkMap. // // We do this manually, because the file creator has already been destroyed. // info.file_size = it->second->mSize ; info.strategy = mDefaultChunkStrategy ; info.chunk_size = ChunkMap::CHUNKMAP_FIXED_CHUNK_SIZE ; //info.flags = it->second->mFlags ; uint32_t nb_chunks = it->second->mSize/ChunkMap::CHUNKMAP_FIXED_CHUNK_SIZE ; if(it->second->mSize % ChunkMap::CHUNKMAP_FIXED_CHUNK_SIZE != 0) ++nb_chunks ; info.chunks.resize(nb_chunks,FileChunksInfo::CHUNK_DONE) ; return true ; } return false ; } void ftController::addFileSource(const RsFileHash& hash,const RsPeerId& peer_id) { RsStackMutex stack(ctrlMutex); /******* LOCKED ********/ std::map::iterator it = mDownloads.find(hash); #ifdef CONTROL_DEBUG std::cerr << "ftController: Adding source " << peer_id << " to current download hash=" << hash ; #endif if(it != mDownloads.end()) { it->second->mTransfer->addFileSource(peer_id); setPeerState(it->second->mTransfer, peer_id, FT_CNTRL_STANDARD_RATE, mServiceCtrl->isPeerConnected(mFtServiceType, peer_id )); #ifdef CONTROL_DEBUG std::cerr << "... added." << std::endl ; #endif return ; } #ifdef CONTROL_DEBUG std::cerr << "... not added: hash not found." << std::endl ; #endif } void ftController::removeFileSource(const RsFileHash& hash,const RsPeerId& peer_id) { RsStackMutex stack(ctrlMutex); /******* LOCKED ********/ std::map::iterator it = mDownloads.find(hash); #ifdef CONTROL_DEBUG std::cerr << "ftController: Adding source " << peer_id << " to current download hash=" << hash ; #endif if(it != mDownloads.end()) { it->second->mTransfer->removeFileSource(peer_id); it->second->mCreator->removeFileSource(peer_id); #ifdef CONTROL_DEBUG std::cerr << "... added." << std::endl ; #endif return ; } #ifdef CONTROL_DEBUG std::cerr << "... not added: hash not found." << std::endl ; #endif } void ftController::data_tick() { /* check the queues */ //Waiting 1 sec before start usleep(1*1000*1000); // 1 sec #ifdef CONTROL_DEBUG std::cerr << "ftController::run()"; std::cerr << std::endl; #endif bool doPending = false; { RsStackMutex stack(ctrlMutex); /******* LOCKED ********/ doPending = (mFtActive) && (!mFtPendingDone); } time_t now = time(NULL) ; if(now > last_save_time + SAVE_TRANSFERS_DELAY) { searchForDirectSources() ; IndicateConfigChanged() ; last_save_time = now ; } if(now > last_clean_time + INACTIVE_CHUNKS_CHECK_DELAY) { RsStackMutex stack(ctrlMutex); /******* LOCKED ********/ for(std::map::iterator it(mDownloads.begin());it!=mDownloads.end();++it) it->second->mCreator->removeInactiveChunks() ; last_clean_time = now ; } if (doPending) { if (!handleAPendingRequest()) { RsStackMutex stack(ctrlMutex); /******* LOCKED ********/ mFtPendingDone = true; } } tickTransfers() ; { std::list files_to_complete ; { RsStackMutex stack2(doneMutex); files_to_complete = mDone ; mDone.clear(); } for(std::list::iterator it(files_to_complete.begin()); it != files_to_complete.end(); ++it) completeFile(*it); } if(cnt++ % 10 == 0) checkDownloadQueue() ; } void ftController::searchForDirectSources() { RsStackMutex stack(ctrlMutex); /******* LOCKED ********/ if (!mSearch) return; for(std::map::iterator it(mDownloads.begin()); it != mDownloads.end(); ++it ) if(it->second->mState != ftFileControl::QUEUED && it->second->mState != ftFileControl::PAUSED ) { FileInfo info ; // Info needs to be re-allocated each time, to start with a clear list of peers (it's not cleared down there) if( mSearch->search(it->first, RS_FILE_HINTS_REMOTE | RS_FILE_HINTS_SPEC_ONLY, info) ) for( std::list::const_iterator pit = info.peers.begin(); pit != info.peers.end(); ++pit ) { bool bAllowDirectDL = false; switch (mFilePermDirectDLPolicy) { case RS_FILE_PERM_DIRECT_DL_YES: bAllowDirectDL = true; break; case RS_FILE_PERM_DIRECT_DL_NO: bAllowDirectDL = false; break; default:bAllowDirectDL = (rsPeers->servicePermissionFlags(pit->peerId) & RS_NODE_PERM_DIRECT_DL); break; } if( bAllowDirectDL ) if( it->second->mTransfer->addFileSource(pit->peerId) ) /* if the sources don't exist already - add in */ setPeerState( it->second->mTransfer, pit->peerId, FT_CNTRL_STANDARD_RATE, mServiceCtrl->isPeerConnected(mFtServiceType, pit->peerId) ); } } } void ftController::tickTransfers() { // 1 - sort modules into arrays according to priority RsStackMutex stack(ctrlMutex); /******* LOCKED ********/ #ifdef CONTROL_DEBUG std::cerr << "ticking transfers." << std::endl ; #endif // Collect all non queued files. // for(std::map::iterator it(mDownloads.begin()); it != mDownloads.end(); ++it) if(it->second->mState != ftFileControl::QUEUED && it->second->mState != ftFileControl::PAUSED) it->second->mTransfer->tick() ; } bool ftController::getPriority(const RsFileHash& hash,DwlSpeed& p) { RsStackMutex stack(ctrlMutex); /******* LOCKED ********/ std::map::iterator it(mDownloads.find(hash)) ; if(it != mDownloads.end()) { p = it->second->mTransfer->downloadPriority() ; return true ; } else return false ; } void ftController::setPriority(const RsFileHash& hash,DwlSpeed p) { RsStackMutex stack(ctrlMutex); /******* LOCKED ********/ std::map::iterator it(mDownloads.find(hash)) ; if(it != mDownloads.end()) it->second->mTransfer->setDownloadPriority(p) ; } /* Called every 10 seconds or so */ void ftController::checkDownloadQueue() { // We do multiple things here: // // 0 - make sure all transfers have a consistent value for mDownloadQueue // // 1 - are there queued files ? // // YES // 1.1 - check for inactive files (see below). // - select one inactive file // - close it temporarily // - remove it from turtle handling // - move the ftFileControl to queued list // - set the queue priority to 1+largest in the queue. // 1.2 - pop from the queue the 1st file to come (according to availability of sources, then priority) // - enable turtle router handling for this hash // - reset counters // - set the file as waiting // NO // Do nothing, because no files are waiting. // // 2 - in FileRequest, if the max number of downloaded files is exceeded, put the // file in the queue list, and don't enable the turtle router handling. // // Implementation: // - locate a hash in the queue // - move hashes in the queue up/down/top/bottom // - now the place of each ftFileControl element in the queue to activate/desactive them // // So: // - change mDownloads to be a std::map // - sort the ftFileControl* into a std::vector // - store the queue position of each ftFileControl* into its own structure (mQueuePosition member) // // We don't want the turtle router to keep openning tunnels for queued files, so we only base // the notion of inactive on the fact that no traffic happens for the file within 5 mins. // // How do we detect inactive files? // For a downld file: - no traffic for 5 min. RsStackMutex mtx(ctrlMutex) ; #ifdef DEBUG_DWLQUEUE std::cerr << "Checking download queue." << std::endl ; #endif if(mDownloads.size() <= _max_active_downloads) return ; std::vector inactive_transfers ; std::vector transfers_with_online_sources ; std::set online_peers ; mServiceCtrl->getPeersConnected(mFtServiceType,online_peers) ; // Check for inactive transfers, and queued transfers with online sources. // time_t now = time(NULL) ; for(std::map::const_iterator it(mDownloads.begin());it!=mDownloads.end() ;++it) if( it->second->mState != ftFileControl::QUEUED && (it->second->mState == ftFileControl::PAUSED || now > it->second->mTransfer->lastActvTimeStamp() + (time_t)MAX_TIME_INACTIVE_REQUEUED)) { inactive_transfers.push_back(it->second) ; } else if(it->second->mState == ftFileControl::QUEUED) { std::list srcs ; it->second->mTransfer->getFileSources(srcs) ; for(std::list::const_iterator it2(srcs.begin());it2!=srcs.end();++it2) if(online_peers.find(*it2) != online_peers.end()) { transfers_with_online_sources.push_back(it->second) ; break ; } } #ifdef DEBUG_DWLQUEUE std::cerr << "Identified " << inactive_transfers.size() << " inactive transfer, and " << transfers_with_online_sources.size() << " queued transfers with online sources." << std::endl; #endif // first swap as many queued transfers with online sources with inactive transfers uint32_t i=0; for(;imName << " at position " << inactive_transfers[i]->mQueuePosition << " with transfer at position " << transfers_with_online_sources[i]->mQueuePosition << " which has available sources." << std::endl; #endif inactive_transfers[i]->mTransfer->resetActvTimeStamp() ; // very important! transfers_with_online_sources[i]->mTransfer->resetActvTimeStamp() ; // very important! locked_swapQueue(inactive_transfers[i]->mQueuePosition,transfers_with_online_sources[i]->mQueuePosition); } // now if some inactive transfers remain, put them at the end of the queue. for(;imName << " at position " << inactive_transfers[i]->mQueuePosition << " moved to end of the queue. mState=" << inactive_transfers[i]->mState << ", time lapse=" << now - it->second->mCreator->lastActvTimeStamp() << std::endl ; #endif locked_bottomQueue(inactive_transfers[i]->mQueuePosition) ; #ifdef DEBUG_DWLQUEUE std::cerr << " new position: " << inactive_transfers[i]->mQueuePosition << std::endl ; std::cerr << " new state: " << inactive_transfers[i]->mState << std::endl ; #endif inactive_transfers[i]->mTransfer->resetActvTimeStamp() ; // very important! } // finally, do a full swab over the queue to make sure that the expected number of downloads is met. for(uint32_t i=0;i::iterator it(mDownloads.find(hash)) ; if(it == mDownloads.end()) { std::cerr << "ftController::moveInQueue: can't find hash " << hash << " in the download list." << std::endl ; return ; } uint32_t pos = it->second->mQueuePosition ; #ifdef DEBUG_DWLQUEUE std::cerr << "Moving file " << hash << ", pos=" << pos << " to new pos." << std::endl ; #endif switch(mv) { case QUEUE_TOP: locked_topQueue(pos) ; break ; case QUEUE_BOTTOM: locked_bottomQueue(pos) ; break ; case QUEUE_UP: if(pos > 0) locked_swapQueue(pos,pos-1) ; break ; case QUEUE_DOWN: if(pos < mDownloadQueue.size()-1) locked_swapQueue(pos,pos+1) ; break ; default: std::cerr << "ftController::moveInQueue: unknown move " << mv << std::endl ; } } void ftController::locked_topQueue(uint32_t pos) { ftFileControl *tmp=mDownloadQueue[pos] ; for(int p=pos;p>0;--p) { mDownloadQueue[p]=mDownloadQueue[p-1] ; locked_checkQueueElement(p) ; } mDownloadQueue[0]=tmp ; locked_checkQueueElement(0) ; } void ftController::locked_bottomQueue(uint32_t pos) { ftFileControl *tmp=mDownloadQueue[pos] ; for(uint32_t p=pos;pmQueuePosition = pos ; if(pos < _max_active_downloads && mDownloadQueue[pos]->mState != ftFileControl::PAUSED) { if(mDownloadQueue[pos]->mState == ftFileControl::QUEUED) mDownloadQueue[pos]->mTransfer->resetActvTimeStamp() ; mDownloadQueue[pos]->mState = ftFileControl::DOWNLOADING ; if(mDownloadQueue[pos]->mFlags & RS_FILE_REQ_ANONYMOUS_ROUTING) mFtServer->activateTunnels(mDownloadQueue[pos]->mHash,mDefaultEncryptionPolicy,mDownloadQueue[pos]->mFlags,true); } if(pos >= _max_active_downloads && mDownloadQueue[pos]->mState != ftFileControl::QUEUED && mDownloadQueue[pos]->mState != ftFileControl::PAUSED) { mDownloadQueue[pos]->mState = ftFileControl::QUEUED ; mDownloadQueue[pos]->mCreator->closeFile() ; if(mDownloadQueue[pos]->mFlags & RS_FILE_REQ_ANONYMOUS_ROUTING) mFtServer->activateTunnels(mDownloadQueue[pos]->mHash,mDefaultEncryptionPolicy,mDownloadQueue[pos]->mFlags,false); } } bool ftController::FlagFileComplete(const RsFileHash& hash) { RsStackMutex stack2(doneMutex); mDone.push_back(hash); #ifdef CONTROL_DEBUG std::cerr << "ftController:FlagFileComplete(" << hash << ")"; std::cerr << std::endl; #endif return true; } bool ftController::completeFile(const RsFileHash& hash) { /* variables... so we can drop mutex later */ std::string path; std::string name; uint64_t size = 0; uint32_t period = 0; TransferRequestFlags flags ; TransferRequestFlags extraflags ; uint32_t completeCount = 0; { RS_STACK_MUTEX(ctrlMutex); #ifdef CONTROL_DEBUG std::cerr << "ftController:completeFile(" << hash << ")"; std::cerr << std::endl; #endif std::map::iterator it(mDownloads.find(hash)); if (it == mDownloads.end()) { #ifdef CONTROL_DEBUG std::cerr << "ftController:completeFile(" << hash << ")"; std::cerr << " Not Found!"; std::cerr << std::endl; #endif return false; } /* check if finished */ if (!(it->second)->mCreator->finished()) { /* not done! */ #ifdef CONTROL_DEBUG std::cerr << "ftController:completeFile(" << hash << ")"; std::cerr << " Transfer Not Done"; std::cerr << std::endl; std::cerr << "FileSize: "; std::cerr << (it->second)->mCreator->getFileSize(); std::cerr << " and Recvd: "; std::cerr << (it->second)->mCreator->getRecvd(); #endif return false; } ftFileControl *fc = it->second; // (csoler) I've postponed this to the end of the block because deleting the // element from the map calls the destructor of fc->mTransfer, which // makes fc to point to nothing and causes random behavior/crashes. // // mDataplex->removeTransferModule(fc->mTransfer->hash()); // /* done - cleanup */ // (csoler) I'm copying this because "delete fc->mTransfer" deletes the hash string! RsFileHash hash_to_suppress(fc->mTransfer->hash()); // This should be done that early, because once the file creator is // deleted, it should not be accessed by the data multiplex anymore! // mDataplex->removeTransferModule(hash_to_suppress) ; if (fc->mTransfer) { delete fc->mTransfer; fc->mTransfer = NULL; } if (fc->mCreator) { fc->mCreator->closeFile() ; delete fc->mCreator; fc->mCreator = NULL; } fc->mState = ftFileControl::COMPLETED; // I don't know how the size can be zero, but believe me, this happens, // and it causes an error on linux because then the file may not even exist. // if( fc->mSize > 0 && RsDirUtil::moveFile(fc->mCurrentPath,fc->mDestination) ) fc->mCurrentPath = fc->mDestination; else fc->mState = ftFileControl::ERROR_COMPLETION; /* for extralist additions */ path = fc->mDestination; name = fc->mName; //hash = fc->mHash; size = fc->mSize; period = 30 * 24 * 3600; /* 30 days */ extraflags.clear() ; #ifdef CONTROL_DEBUG std::cerr << "CompleteFile(): size = " << size << std::endl ; #endif flags = fc->mFlags ; locked_queueRemove(it->second->mQueuePosition) ; /* switch map */ mCompleted[fc->mHash] = fc; completeCount = mCompleted.size(); mDownloads.erase(it); if(flags & RS_FILE_REQ_ANONYMOUS_ROUTING) mFtServer->activateTunnels(hash_to_suppress,mDefaultEncryptionPolicy,flags,false); } // UNLOCK: RS_STACK_MUTEX(ctrlMutex); /******************** NO Mutex from Now ******************** * cos Callback can end up back in this class. ***********************************************************/ /* If it has a callback - do it now */ if(flags & RS_FILE_REQ_EXTRA)// | RS_FILE_HINTS_MEDIA)) { #ifdef CONTROL_DEBUG std::cerr << "ftController::completeFile() adding to ExtraList"; std::cerr << std::endl; #endif if(mExtraList) mExtraList->addExtraFile(path, hash, size, period, extraflags); } else { #ifdef CONTROL_DEBUG std::cerr << "ftController::completeFile() No callback"; std::cerr << std::endl; #endif } /* Notify GUI */ RsServer::notify()->AddPopupMessage(RS_POPUP_DOWNLOAD, hash.toStdString(), name, ""); RsServer::notify()->notifyDownloadComplete(hash.toStdString()); RsServer::notify()->notifyDownloadCompleteCount(completeCount); rsFiles->ForceDirectoryCheck() ; IndicateConfigChanged(); /* completed transfer -> save */ return true; } /***************************************************************/ /********************** Controller Access **********************/ /***************************************************************/ bool ftController::activate() { RsStackMutex stack(ctrlMutex); /******* LOCKED ********/ mFtActive = true; mFtPendingDone = false; return true; } bool ftController::isActiveAndNoPending() { RsStackMutex stack(ctrlMutex); /******* LOCKED ********/ return (mFtActive && mFtPendingDone); } bool ftController::handleAPendingRequest() { ftPendingRequest req; { RsStackMutex stack(ctrlMutex); /******* LOCKED ********/ if (mPendingRequests.size() < 1) { return false; } req = mPendingRequests.front(); mPendingRequests.pop_front(); } #ifdef CONTROL_DEBUG std::cerr << "Requesting pending hash " << req.mHash << std::endl ; #endif FileRequest(req.mName, req.mHash, req.mSize, req.mDest, TransferRequestFlags(req.mFlags), req.mSrcIds, req.mState); { // See whether there is a pendign chunk map recorded for this hash. // RsStackMutex stack(ctrlMutex); /******* LOCKED ********/ std::map::iterator it(mPendingChunkMaps.find(req.mHash)) ; if(it != mPendingChunkMaps.end()) { RsFileTransfer *rsft = it->second ; std::map::iterator fit = mDownloads.find(rsft->file.hash); if((fit==mDownloads.end() || (fit->second)->mCreator == NULL)) { // This should never happen, because the last call to FileRequest must have created the fileCreator!! // std::cerr << "ftController::loadList(): Error: could not find hash " << rsft->file.hash << " in mDownloads list !" << std::endl ; } else { #ifdef CONTROL_DEBUG std::cerr << "Hash " << req.mHash << " is in downloads" << std::endl ; std::cerr << " setting chunk strategy to " << rsft->chunk_strategy << std::endl; #endif (fit->second)->mCreator->setAvailabilityMap(rsft->compressed_chunk_map) ; (fit->second)->mCreator->setChunkStrategy((FileChunksInfo::ChunkStrategy)(rsft->chunk_strategy)) ; (fit->second)->mState=rsft->state; } delete rsft ; mPendingChunkMaps.erase(it) ; } #ifdef CONTROL_DEBUG else std::cerr << "No pending chunkmap for hash " << req.mHash << std::endl ; #endif } return true ; } bool ftController::alreadyHaveFile(const RsFileHash& hash, FileInfo &info) { // check for downloads if (FileDetails(hash, info) && (info.downloadStatus == FT_STATE_COMPLETE)) return true ; // check for file lists if (!mSearch) return false; if (mSearch->search(hash, RS_FILE_HINTS_LOCAL | RS_FILE_HINTS_EXTRA | RS_FILE_HINTS_SPEC_ONLY, info)) return true ; return false ; } bool ftController::FileRequest(const std::string& fname, const RsFileHash& hash, uint64_t size, const std::string& dest, TransferRequestFlags flags, const std::list &_srcIds, uint16_t state) { std::list srcIds(_srcIds) ; /* check if we have the file */ FileInfo info; if(alreadyHaveFile(hash, info)) return false ; // the strategy for requesting encryption is the following: // // if policy is STRICT // - disable clear, enforce encryption // else // - if not specified, use both // if(mDefaultEncryptionPolicy == RS_FILE_CTRL_ENCRYPTION_POLICY_STRICT) { flags |= RS_FILE_REQ_ENCRYPTED ; flags &= ~RS_FILE_REQ_UNENCRYPTED ; } else if(!(flags & ( RS_FILE_REQ_ENCRYPTED | RS_FILE_REQ_UNENCRYPTED ))) { flags |= RS_FILE_REQ_ENCRYPTED ; flags |= RS_FILE_REQ_UNENCRYPTED ; } if(size == 0) // we treat this special case because { /* if no destpath - send to download directory */ std::string destination ; if (dest == "") destination = mDownloadPath + "/" + fname; else destination = dest + "/" + fname; // create void file with the target name. FILE *f = RsDirUtil::rs_fopen(destination.c_str(),"w") ; if(f == NULL) std::cerr << "Could not open file " << destination << " for writting." << std::endl ; else fclose(f) ; return true ; } // Bugs in the cache system can cause files with arbitrary size to be // requested, causing a division by zero in ftChunkMap when size > 1MB * // (2^32-1). I thus conservatively check for large size values. // if(size >= 1024ull*1024ull*((1ull << 32) - 1)) { std::cerr << "FileRequest Error: unexpected size. This is probably a bug." << std::endl; std::cerr << " name = " << fname << std::endl ; std::cerr << " flags = " << flags << std::endl ; std::cerr << " dest = " << dest << std::endl ; std::cerr << " size = " << size << std::endl ; return false ; } /* If file transfer is not enabled .... * save request for later. This will also * mean that we will have to copy local files, * or have a callback which says: local file. */ { RsStackMutex stack(ctrlMutex); /******* LOCKED ********/ if (!mFtActive) { /* store in pending queue */ ftPendingRequest req(fname, hash, size, dest, flags, srcIds,state); mPendingRequests.push_back(req); return true; } } // remove the sources from the list, if they don't have clearance for direct transfer. This happens only for non cache files. // for(std::list::iterator it = srcIds.begin(); it != srcIds.end(); ) { bool bAllowDirectDL = false; switch (mFilePermDirectDLPolicy) { case RS_FILE_PERM_DIRECT_DL_YES: bAllowDirectDL = true; break; case RS_FILE_PERM_DIRECT_DL_NO: bAllowDirectDL = false; break; default:bAllowDirectDL = (rsPeers->servicePermissionFlags(*it) & RS_NODE_PERM_DIRECT_DL); break; } if(!bAllowDirectDL) { std::list::iterator tmp(it); ++tmp; srcIds.erase(it); it = tmp; } else ++it; } std::list::const_iterator it; std::list::const_iterator pit; #ifdef CONTROL_DEBUG std::cerr << "ftController::FileRequest(" << fname << ","; std::cerr << hash << "," << size << "," << dest << ","; std::cerr << flags << ",<"; for(it = srcIds.begin(); it != srcIds.end(); ++it) { std::cerr << *it << ","; } std::cerr << ">)"; std::cerr << std::endl; #endif uint32_t rate = 0; if (flags & RS_FILE_REQ_BACKGROUND) rate = FT_CNTRL_SLOW_RATE; else rate = FT_CNTRL_STANDARD_RATE; /* First check if the file is already being downloaded.... * This is important as some guis request duplicate files regularly. */ { RsStackMutex stack(ctrlMutex); /******* LOCKED ********/ std::map::const_iterator dit = mDownloads.find(hash); if (dit != mDownloads.end()) { /* we already have it! */ #ifdef CONTROL_DEBUG std::cerr << "ftController::FileRequest() Already Downloading File"; std::cerr << std::endl; std::cerr << "\tNo need to download"; std::cerr << std::endl; #endif /* but we should add this peer - if they don't exist! * (needed for channels). */ for(it = srcIds.begin(); it != srcIds.end(); ++it) { bool bAllowDirectDL = false; switch (mFilePermDirectDLPolicy) { case RS_FILE_PERM_DIRECT_DL_YES: bAllowDirectDL = true; break; case RS_FILE_PERM_DIRECT_DL_NO: bAllowDirectDL = false; break; default:bAllowDirectDL = (rsPeers->servicePermissionFlags(*it) & RS_NODE_PERM_DIRECT_DL); break; } if(bAllowDirectDL) { uint32_t i, j; if ((dit->second)->mTransfer->getPeerState(*it, i, j)) { #ifdef CONTROL_DEBUG std::cerr << "ftController::FileRequest() Peer Existing"; std::cerr << std::endl; #endif continue; /* already added peer */ } #ifdef CONTROL_DEBUG std::cerr << "ftController::FileRequest() Adding Peer: " << *it; std::cerr << std::endl; #endif (dit->second)->mTransfer->addFileSource(*it); setPeerState(dit->second->mTransfer, *it, rate, mServiceCtrl->isPeerConnected(mFtServiceType, *it)); } } if (srcIds.empty()) { #ifdef CONTROL_DEBUG std::cerr << "ftController::FileRequest() WARNING: No Src Peers"; std::cerr << std::endl; #endif } return true; } } /******* UNLOCKED ********/ if(mSearch && !(flags & RS_FILE_REQ_NO_SEARCH)) { /* do a source search - for any extra sources */ // add sources only in direct mode // if(/* (flags & RS_FILE_HINTS_BROWSABLE) && */ mSearch->search(hash, RS_FILE_HINTS_REMOTE | RS_FILE_HINTS_SPEC_ONLY, info)) { /* do something with results */ #ifdef CONTROL_DEBUG std::cerr << "ftController::FileRequest() Found Other Sources"; std::cerr << std::endl; #endif /* if the sources don't exist already - add in */ for(pit = info.peers.begin(); pit != info.peers.end(); ++pit) { #ifdef CONTROL_DEBUG std::cerr << "\tSource: " << pit->peerId; std::cerr << std::endl; #endif // Because this is auto-add, we only add sources that we allow to DL from using direct transfers. bool bAllowDirectDL = false; switch (mFilePermDirectDLPolicy) { case RS_FILE_PERM_DIRECT_DL_YES: bAllowDirectDL = true; break; case RS_FILE_PERM_DIRECT_DL_NO: bAllowDirectDL = false; break; default:bAllowDirectDL = (rsPeers->servicePermissionFlags(pit->peerId) & RS_NODE_PERM_DIRECT_DL); break; } if ((srcIds.end() == std::find( srcIds.begin(), srcIds.end(), pit->peerId)) && bAllowDirectDL) { srcIds.push_back(pit->peerId); #ifdef CONTROL_DEBUG std::cerr << "\tAdding in: " << pit->peerId; std::cerr << std::endl; #endif } } } } /* add in new item for download */ std::string savepath; std::string destination; { RsStackMutex stack(ctrlMutex); /******* LOCKED ********/ savepath = mPartialsPath + "/" + hash.toStdString(); destination = dest + "/" + fname; /* if no destpath - send to download directory */ if (dest == "") destination = mDownloadPath + "/" + fname; } /******* UNLOCKED ********/ // We check that flags are consistent. if(flags & RS_FILE_REQ_ANONYMOUS_ROUTING) mFtServer->activateTunnels(hash,mDefaultEncryptionPolicy,flags,true); bool assume_availability = false; ftFileCreator *fc = new ftFileCreator(savepath, size, hash,assume_availability); ftTransferModule *tm = new ftTransferModule(fc, mDataplex,this); #ifdef CONTROL_DEBUG std::cerr << "Note: setting chunk strategy to " << mDefaultChunkStrategy <setChunkStrategy(mDefaultChunkStrategy) ; /* add into maps */ ftFileControl *ftfc = new ftFileControl(fname, savepath, destination, size, hash, flags, fc, tm); ftfc->mCreateTime = time(NULL); /* now add source peers (and their current state) */ tm->setFileSources(srcIds); /* get current state for transfer module */ for(it = srcIds.begin(); it != srcIds.end(); ++it) { #ifdef CONTROL_DEBUG std::cerr << "ftController::FileRequest() adding peer: " << *it; std::cerr << std::endl; #endif setPeerState(tm, *it, rate, mServiceCtrl->isPeerConnected(mFtServiceType, *it)); } /* add structures into the accessible data. Needs to be locked */ { RsStackMutex stack(ctrlMutex); /******* LOCKED ********/ locked_addToQueue(ftfc, FT_FILECONTROL_QUEUE_ADD_END ) ; #ifdef CONTROL_DEBUG std::cerr << "ftController::FileRequest() Created ftFileCreator @: " << fc; std::cerr << std::endl; std::cerr << "ftController::FileRequest() Created ftTransModule @: " << tm; std::cerr << std::endl; std::cerr << "ftController::FileRequest() Created ftFileControl." ; std::cerr << std::endl; #endif /* add to ClientModule */ mDataplex->addTransferModule(tm, fc); mDownloads[hash] = ftfc; } IndicateConfigChanged(); /* completed transfer -> save */ return true; } bool ftController::setPeerState(ftTransferModule *tm, const RsPeerId& id, uint32_t maxrate, bool online) { if (id == mServiceCtrl->getOwnId()) { #ifdef CONTROL_DEBUG std::cerr << "ftController::setPeerState() is Self"; std::cerr << std::endl; #endif tm->setPeerState(id, PQIPEER_IDLE, maxrate); } else if (online || mTurtle->isOnline(id)) { #ifdef CONTROL_DEBUG std::cerr << "ftController::setPeerState()"; std::cerr << " Peer is Online"; std::cerr << std::endl; #endif tm->setPeerState(id, PQIPEER_IDLE, maxrate); } else { #ifdef CONTROL_DEBUG std::cerr << "ftController::setPeerState()"; std::cerr << " Peer is Offline"; std::cerr << std::endl; #endif tm->setPeerState(id, PQIPEER_NOT_ONLINE, maxrate); } return true; } bool ftController::setChunkStrategy(const RsFileHash& hash,FileChunksInfo::ChunkStrategy s) { std::map::iterator mit=mDownloads.find(hash); if (mit==mDownloads.end()) { #ifdef CONTROL_DEBUG std::cerr<<"ftController::setChunkStrategy file is not found in mDownloads"<second->mCreator->setChunkStrategy(s) ; return true ; } bool ftController::FileCancel(const RsFileHash& hash) { mFtServer->activateTunnels(hash,mDefaultEncryptionPolicy,TransferRequestFlags(0),false); #ifdef CONTROL_DEBUG std::cerr << "ftController::FileCancel" << std::endl; #endif /*check if the file in the download map*/ { RsStackMutex mtx(ctrlMutex) ; std::map::iterator mit=mDownloads.find(hash); if (mit==mDownloads.end()) { #ifdef CONTROL_DEBUG std::cerr<<"ftController::FileCancel file is not found in mDownloads"<second)->mCreator->finished()) { #ifdef CONTROL_DEBUG std::cerr << "ftController:FileCancel(" << hash << ")"; std::cerr << " Transfer Already finished"; std::cerr << std::endl; std::cerr << "FileSize: "; std::cerr << (mit->second)->mCreator->getFileSize(); std::cerr << " and Recvd: "; std::cerr << (mit->second)->mCreator->getRecvd(); #endif return false; } /*find the point to transfer module*/ ftTransferModule* ft=(mit->second)->mTransfer; ft->cancelTransfer(); ftFileControl *fc = mit->second; mDataplex->removeTransferModule(fc->mTransfer->hash()); if (fc->mTransfer) { delete fc->mTransfer; fc->mTransfer = NULL; } if (fc->mCreator) { delete fc->mCreator; fc->mCreator = NULL; } /* delete the temporary file */ if (0 == remove(fc->mCurrentPath.c_str())) { #ifdef CONTROL_DEBUG std::cerr << "ftController::FileCancel() remove temporary file "; std::cerr << fc->mCurrentPath; std::cerr << std::endl; #endif } else { #ifdef CONTROL_DEBUG std::cerr << "ftController::FileCancel() fail to remove file "; std::cerr << fc->mCurrentPath; std::cerr << std::endl; #endif } locked_queueRemove(fc->mQueuePosition) ; delete fc ; mDownloads.erase(mit); } IndicateConfigChanged(); /* completed transfer -> save */ return true; } bool ftController::FileControl(const RsFileHash& hash, uint32_t flags) { #ifdef CONTROL_DEBUG std::cerr << "ftController::FileControl(" << hash << ","; std::cerr << flags << ")"<::iterator mit=mDownloads.find(hash); if (mit==mDownloads.end()) { #ifdef CONTROL_DEBUG std::cerr<<"ftController::FileControl file is not found in mDownloads"<second->mState = ftFileControl::PAUSED ; std::cerr << "setting state to " << ftFileControl::PAUSED << std::endl ; break; case RS_FILE_CTRL_START: mit->second->mState = ftFileControl::DOWNLOADING ; std::cerr << "setting state to " << ftFileControl::DOWNLOADING << std::endl ; break; case RS_FILE_CTRL_FORCE_CHECK: mit->second->mTransfer->forceCheck(); std::cerr << "setting state to " << ftFileControl::CHECKING_HASH << std::endl ; break; default: return false; } IndicateConfigChanged() ; return true; } bool ftController::FileClearCompleted() { #ifdef CONTROL_DEBUG std::cerr << "ftController::FileClearCompleted()" <::iterator it(mCompleted.begin());it!=mCompleted.end();++it) delete it->second ; mCompleted.clear(); IndicateConfigChanged(); } /******* UNLOCKED ********/ RsServer::notify()->notifyDownloadCompleteCount(0); return false; } /* get Details of File Transfers */ void ftController::FileDownloads(std::list &hashs) { RsStackMutex stack(ctrlMutex); /******* LOCKED ********/ std::map::iterator it; for(it = mDownloads.begin(); it != mDownloads.end(); ++it) { hashs.push_back(it->second->mHash); } for(it = mCompleted.begin(); it != mCompleted.end(); ++it) { hashs.push_back(it->second->mHash); } } /* Directory Handling */ bool ftController::setDownloadDirectory(std::string path) { #ifdef CONTROL_DEBUG std::cerr << "ftController::setDownloadDirectory(" << path << ")"; std::cerr << std::endl; #endif /* check if it exists */ if (RsDirUtil::checkCreateDirectory(path)) { RsStackMutex stack(ctrlMutex); /******* LOCKED ********/ mDownloadPath = RsDirUtil::convertPathToUnix(path); RsDiscSpace::setDownloadPath(mDownloadPath) ; #ifdef CONTROL_DEBUG std::cerr << "ftController::setDownloadDirectory() Okay!"; std::cerr << std::endl; #endif IndicateConfigChanged(); return true; } #ifdef CONTROL_DEBUG std::cerr << "ftController::setDownloadDirectory() Failed"; std::cerr << std::endl; #endif return false; } bool ftController::setPartialsDirectory(std::string path) { /* check it is not a subdir of download / shared directories (BAD) - TODO */ { RsStackMutex stack(ctrlMutex); path = RsDirUtil::convertPathToUnix(path); if (!path.find(mDownloadPath)) { return false; } if (rsFiles) { std::list::iterator it; std::list dirs; rsFiles->getSharedDirectories(dirs); for (it = dirs.begin(); it != dirs.end(); ++it) { if (!path.find((*it).filename)) { return false; } } } } /* check if it exists */ if (RsDirUtil::checkCreateDirectory(path)) { RsStackMutex stack(ctrlMutex); /******* LOCKED ********/ mPartialsPath = path; RsDiscSpace::setPartialsPath(path) ; #if 0 /*** FIX ME !!!**************/ /* move all existing files! */ std::map::iterator it; for(it = mDownloads.begin(); it != mDownloads.end(); ++it) { (it->second).mCreator->changePartialDirectory(mPartialPath); } #endif IndicateConfigChanged(); return true; } return false; } std::string ftController::getDownloadDirectory() { RsStackMutex stack(ctrlMutex); /******* LOCKED ********/ return mDownloadPath; } std::string ftController::getPartialsDirectory() { RsStackMutex stack(ctrlMutex); /******* LOCKED ********/ return mPartialsPath; } bool ftController::setDestinationDirectory(const RsFileHash& hash,const std::string& dest_dir) { RsStackMutex stack(ctrlMutex); /******* LOCKED ********/ std::map::iterator it = mDownloads.find(hash); if (it == mDownloads.end()) return false; std::cerr << "(II) Changing destination of file " << it->second->mDestination << std::endl; it->second->mDestination = dest_dir + '/' + it->second->mName ; std::cerr << "(II) ...to " << it->second->mDestination << std::endl; return true ; } bool ftController::setDestinationName(const RsFileHash& hash,const std::string& dest_name) { RsStackMutex stack(ctrlMutex); /******* LOCKED ********/ std::map::iterator it = mDownloads.find(hash); if (it == mDownloads.end()) return false; std::cerr << "(II) Changing destination of file " << it->second->mDestination << std::endl; std::string dest_path ; RsDirUtil::removeTopDir(it->second->mDestination, dest_path); /* remove fname */ it->second->mDestination = dest_path + '/' + dest_name ; it->second->mName = dest_name ; std::cerr << "(II) ...to " << it->second->mDestination << std::endl; return true ; } bool ftController::FileDetails(const RsFileHash &hash, FileInfo &info) { RsStackMutex stack(ctrlMutex); /******* LOCKED ********/ bool completed = false; std::map::iterator it = mDownloads.find(hash); if (it == mDownloads.end()) { /* search completed files too */ it = mCompleted.find(hash); if (it == mCompleted.end()) { /* Note: mTransfer & mCreator * are both NULL */ return false; } completed = true; } /* extract details */ info.hash = hash; info.fname = it->second->mName; info.storage_permission_flags.clear() ; info.transfer_info_flags = it->second->mFlags ; info.priority = SPEED_NORMAL ; RsDirUtil::removeTopDir(it->second->mDestination, info.path); /* remove fname */ info.queue_position = it->second->mQueuePosition ; if(it->second->mFlags & RS_FILE_REQ_ANONYMOUS_ROUTING) info.storage_permission_flags |= DIR_FLAGS_ANONYMOUS_DOWNLOAD ; // file being downloaded anonymously are always anonymously available. /* get list of sources from transferModule */ std::list peerIds; std::list::iterator pit; if (!completed) { it->second->mTransfer->getFileSources(peerIds); info.priority = it->second->mTransfer->downloadPriority() ; info.lastTS = it->second->mCreator->lastRecvTimeStamp(); // last time the file was actually written } else info.lastTS = 0; double totalRate = 0; uint32_t tfRate = 0; uint32_t state = 0; bool isDownloading = false; bool isSuspended = false; for(pit = peerIds.begin(); pit != peerIds.end(); ++pit) { if (it->second->mTransfer->getPeerState(*pit, state, tfRate)) { TransferInfo ti; switch(state) { case PQIPEER_INIT: ti.status = FT_STATE_OKAY; break; case PQIPEER_NOT_ONLINE: ti.status = FT_STATE_WAITING; break; case PQIPEER_DOWNLOADING: isDownloading = true; ti.status = FT_STATE_DOWNLOADING; break; case PQIPEER_IDLE: ti.status = FT_STATE_OKAY; break; default: case PQIPEER_SUSPEND: isSuspended = true; ti.status = FT_STATE_FAILED; break; } ti.tfRate = tfRate / 1024.0; ti.peerId = *pit; info.peers.push_back(ti); totalRate += tfRate / 1024.0; } } if ((completed) || ((it->second)->mCreator->finished())) { info.downloadStatus = FT_STATE_COMPLETE; } else if (isDownloading) { info.downloadStatus = FT_STATE_DOWNLOADING; } else if (isSuspended) { info.downloadStatus = FT_STATE_FAILED; } else { info.downloadStatus = FT_STATE_WAITING; } if(it->second->mState == ftFileControl::QUEUED) info.downloadStatus = FT_STATE_QUEUED ; if(it->second->mState == ftFileControl::PAUSED) info.downloadStatus = FT_STATE_PAUSED ; if((!completed) && it->second->mTransfer->isCheckingHash()) info.downloadStatus = FT_STATE_CHECKING_HASH ; info.tfRate = totalRate; info.size = (it->second)->mSize; if (completed) { info.transfered = info.size; info.avail = info.transfered; } else { info.transfered = (it->second)->mCreator->getRecvd(); info.avail = info.transfered; } return true; } /***************************************************************/ /********************** Controller Access **********************/ /***************************************************************/ /* pqiMonitor callback: * Used to tell TransferModules new available peers */ void ftController::statusChange(const std::list &plist) { RsStackMutex stack(ctrlMutex); /******* LOCKED ********/ uint32_t rate = FT_CNTRL_STANDARD_RATE; /* add online to all downloads */ std::map::iterator it; std::list::const_iterator pit; #ifdef CONTROL_DEBUG std::cerr << "ftController::statusChange()"; std::cerr << std::endl; #endif for(it = mDownloads.begin(); it != mDownloads.end(); ++it) { #ifdef CONTROL_DEBUG std::cerr << "ftController::statusChange() Updating Hash:"; std::cerr << it->first; std::cerr << std::endl; #endif for(pit = plist.begin(); pit != plist.end(); ++pit) { #ifdef CONTROL_DEBUG std::cerr << "Peer: " << pit->id; #endif if (pit->actions & RS_SERVICE_PEER_CONNECTED) { #ifdef CONTROL_DEBUG std::cerr << " is Newly Connected!"; std::cerr << std::endl; #endif setPeerState(it->second->mTransfer, pit->id, rate, true); } else if (pit->actions & RS_SERVICE_PEER_DISCONNECTED) { #ifdef CONTROL_DEBUG std::cerr << " is Just disconnected!"; std::cerr << std::endl; #endif setPeerState(it->second->mTransfer, pit->id, rate, false); } else // Added or Removed. { #ifdef CONTROL_DEBUG std::cerr << " had something happen to it: "; std::cerr << pit-> actions; std::cerr << std::endl; #endif setPeerState(it->second->mTransfer, pit->id, rate, false); } } // Now also look at turtle virtual peers, for ongoing downloads only. // if(it->second->mState != ftFileControl::DOWNLOADING) continue ; std::list vlist ; std::list::const_iterator vit; mTurtle->getSourceVirtualPeersList(it->first,vlist) ; #ifdef CONTROL_DEBUG std::cerr << "vlist.size() = " << vlist.size() << std::endl; #endif for(vit = vlist.begin(); vit != vlist.end(); ++vit) { #ifdef CONTROL_DEBUG std::cerr << "Peer: " << vit->id; #endif if (vit->actions & RS_PEER_CONNECTED) { #ifdef CONTROL_DEBUG std::cerr << " is Newly Connected!"; std::cerr << std::endl; #endif setPeerState(it->second->mTransfer, vit->id, rate, true); } else if (vit->actions & RS_PEER_DISCONNECTED) { #ifdef CONTROL_DEBUG std::cerr << " is Just disconnected!"; std::cerr << std::endl; #endif setPeerState(it->second->mTransfer, vit->id, rate, false); } else { #ifdef CONTROL_DEBUG std::cerr << " had something happen to it: "; std::cerr << vit-> actions; std::cerr << std::endl; #endif setPeerState(it->second->mTransfer, vit->id, rate, false); } } } } const std::string active_downloads_size_ss("MAX_ACTIVE_DOWNLOADS"); const std::string download_dir_ss("DOWN_DIR"); const std::string partial_dir_ss("PART_DIR"); const std::string max_uploads_per_friend_ss("MAX_UPLOADS_PER_FRIEND"); const std::string default_chunk_strategy_ss("DEFAULT_CHUNK_STRATEGY"); const std::string free_space_limit_ss("FREE_SPACE_LIMIT"); const std::string default_encryption_policy_ss("DEFAULT_ENCRYPTION_POLICY"); const std::string file_perm_direct_dl_ss("FILE_PERM_DIRECT_DL"); /* p3Config Interface */ RsSerialiser *ftController::setupSerialiser() { RsSerialiser *rss = new RsSerialiser(); /* add in the types we need! */ rss->addSerialType(new RsFileConfigSerialiser()); rss->addSerialType(new RsGeneralConfigSerialiser()); return rss; } bool ftController::saveList(bool &cleanup, std::list& saveData) { /* it can delete them! */ cleanup = true; /* create a key/value set for most of the parameters */ std::map configMap; std::map::iterator mit; std::list::iterator it; /* basic control parameters */ std::string s ; rs_sprintf(s, "%lu", getQueueSize()) ; configMap[active_downloads_size_ss] = s ; configMap[download_dir_ss] = getDownloadDirectory(); configMap[partial_dir_ss] = getPartialsDirectory(); switch(mDefaultChunkStrategy) { case FileChunksInfo::CHUNK_STRATEGY_STREAMING: configMap[default_chunk_strategy_ss] = "STREAMING" ; break ; case FileChunksInfo::CHUNK_STRATEGY_RANDOM: configMap[default_chunk_strategy_ss] = "RANDOM" ; break ; default: case FileChunksInfo::CHUNK_STRATEGY_PROGRESSIVE:configMap[default_chunk_strategy_ss] = "PROGRESSIVE" ; break ; } rs_sprintf(s,"%lu",_max_uploads_per_friend) ; configMap[max_uploads_per_friend_ss] = s ; configMap[default_encryption_policy_ss] = (mDefaultEncryptionPolicy==RS_FILE_CTRL_ENCRYPTION_POLICY_PERMISSIVE)?"PERMISSIVE":"STRICT" ; switch (mFilePermDirectDLPolicy) { case RS_FILE_PERM_DIRECT_DL_YES: configMap[file_perm_direct_dl_ss] = "YES" ; break; case RS_FILE_PERM_DIRECT_DL_NO: configMap[file_perm_direct_dl_ss] = "NO" ; break; default: configMap[file_perm_direct_dl_ss] = "PER_USER" ; break; } rs_sprintf(s, "%lu", RsDiscSpace::freeSpaceLimit()); configMap[free_space_limit_ss] = s ; RsConfigKeyValueSet *rskv = new RsConfigKeyValueSet(); /* Convert to TLV */ for(mit = configMap.begin(); mit != configMap.end(); ++mit) { RsTlvKeyValue kv; kv.key = mit->first; kv.value = mit->second; rskv->tlvkvs.pairs.push_back(kv); } /* Add KeyValue to saveList */ saveData.push_back(rskv); /* get list of Downloads .... * strip out Caches / ExtraList / Channels???? * (anything with a callback?) * - most systems will restart missing files. */ /* get Details of File Transfers */ std::list hashs; FileDownloads(hashs); for(it = hashs.begin(); it != hashs.end(); ++it) { /* stack mutex released each loop */ RsStackMutex stack(ctrlMutex); /******* LOCKED ********/ std::map::iterator fit = mDownloads.find(*it); if (fit == mDownloads.end()) continue; /* ignore cache files. As this is small files, better download them again from scratch at restart.*/ // Node: We still save finished transfers. This keeps transfers that are // in checking mode. Finished or checked transfers will restart and // immediately terminate/recheck at next startup. // // if ((fit->second)->mCreator->finished()) // continue; /* make RsFileTransfer item for save list */ RsFileTransfer *rft = new RsFileTransfer(); /* what data is important? */ rft->file.name = fit->second->mName; rft->file.hash = fit->second->mHash; rft->file.filesize = fit->second->mSize; RsDirUtil::removeTopDir(fit->second->mDestination, rft->file.path); /* remove fname */ rft->flags = fit->second->mFlags.toUInt32(); rft->state = fit->second->mState; std::list lst ; fit->second->mTransfer->getFileSources(lst); // Remove turtle peers from sources, as they are not supposed to survive a reboot of RS, since they are dynamic sources. // Otherwize, such sources are unknown from the turtle router, at restart, and never get removed. // for(std::list::const_iterator it(lst.begin());it!=lst.end();++it) if(!mTurtle->isTurtlePeer(*it)) rft->allPeerIds.ids.insert(*it) ; rft->transferred = fit->second->mCreator->getRecvd(); fit->second->mCreator->getAvailabilityMap(rft->compressed_chunk_map) ; rft->chunk_strategy = fit->second->mCreator->getChunkStrategy() ; saveData.push_back(rft); } { /* Save pending list of downloads */ RsStackMutex stack(ctrlMutex); /******* LOCKED ********/ std::list::iterator pit; for (pit = mPendingRequests.begin(); pit != mPendingRequests.end(); ++pit) { /* make RsFileTransfer item for save list */ RsFileTransfer *rft = NULL; std::map::iterator rit = mPendingChunkMaps.find(pit->mHash); if (rit != mPendingChunkMaps.end()) { /* use item from the not loaded pending list */ rft = new RsFileTransfer(*(rit->second)); } else { rft = new RsFileTransfer(); /* what data is important? */ rft->file.name = pit->mName; rft->file.hash = pit->mHash; rft->file.filesize = pit->mSize; RsDirUtil::removeTopDir(pit->mDest, rft->file.path); /* remove fname */ rft->flags = pit->mFlags.toUInt32(); rft->state = pit->mState; rft->allPeerIds.ids.clear() ; for(std::list::const_iterator it(pit->mSrcIds.begin());it!=pit->mSrcIds.end();++it) rft->allPeerIds.ids.insert( *it ) ; } // Remove turtle peers from sources, as they are not supposed to survive a reboot of RS, since they are dynamic sources. // Otherwize, such sources are unknown from the turtle router, at restart, and never get removed. We do that in post // process since the rft object may have been created from mPendingChunkMaps // for(std::set::iterator sit(rft->allPeerIds.ids.begin());sit!=rft->allPeerIds.ids.end();) if(mTurtle->isTurtlePeer(RsPeerId(*sit))) { std::set::iterator sittmp(sit) ; ++sittmp ; rft->allPeerIds.ids.erase(sit) ; sit = sittmp ; } else ++sit ; saveData.push_back(rft); } } /* list completed! */ return true; } bool ftController::loadList(std::list& load) { std::list::iterator it; std::list::iterator kit; RsConfigKeyValueSet *rskv; RsFileTransfer *rsft; #ifdef CONTROL_DEBUG std::cerr << "ftController::loadList() Item Count: " << load.size(); std::cerr << std::endl; #endif for(it = load.begin(); it != load.end(); ++it) { /* switch on type */ if (NULL != (rskv = dynamic_cast(*it))) { /* make into map */ std::map configMap; for(kit = rskv->tlvkvs.pairs.begin(); kit != rskv->tlvkvs.pairs.end(); ++kit) { configMap[kit->key] = kit->value; } loadConfigMap(configMap); } else if (NULL != (rsft = dynamic_cast(*it))) { /* This will get stored on a waiting list - until the * config files are fully loaded */ // Compatibility with previous versions. if(rsft->flags & RS_FILE_HINTS_NETWORK_WIDE.toUInt32()) { std::cerr << "Ensuring compatibility, replacing RS_FILE_HINTS_NETWORK_WIDE with RS_FILE_REQ_ANONYMOUS_ROUTING" << std::endl; rsft->flags &= ~RS_FILE_HINTS_NETWORK_WIDE.toUInt32() ; rsft->flags |= RS_FILE_REQ_ANONYMOUS_ROUTING.toUInt32() ; } #ifdef CONTROL_DEBUG std::cerr << "ftController::loadList(): requesting " << rsft->file.name << ", " << rsft->file.hash << ", " << rsft->file.filesize << std::endl ; #endif std::list src_lst ; for(std::set::const_iterator it(rsft->allPeerIds.ids.begin());it!=rsft->allPeerIds.ids.end();++it) src_lst.push_back(*it) ; FileRequest(rsft->file.name, rsft->file.hash, rsft->file.filesize, rsft->file.path, TransferRequestFlags(rsft->flags), src_lst, rsft->state); { RsStackMutex mtx(ctrlMutex) ; std::map::iterator fit = mDownloads.find(rsft->file.hash); if((fit==mDownloads.end() || (fit->second)->mCreator == NULL)) { std::cerr << "ftController::loadList(): Error: could not find hash " << rsft->file.hash << " in mDownloads list !" << std::endl ; std::cerr << "Storing the map in a wait list." << std::endl ; mPendingChunkMaps[rsft->file.hash] = rsft ; continue ; // i.e. don't delete the item! } else { (fit->second)->mCreator->setAvailabilityMap(rsft->compressed_chunk_map) ; (fit->second)->mCreator->setChunkStrategy((FileChunksInfo::ChunkStrategy)(rsft->chunk_strategy)) ; } } } /* cleanup */ delete (*it); } load.clear() ; return true; } bool ftController::loadConfigMap(std::map &configMap) { std::map::iterator mit; //std::string str_true("true"); //std::string empty(""); //std::string dir = "notempty"; if (configMap.end() != (mit = configMap.find(download_dir_ss))) setDownloadDirectory(mit->second); if (configMap.end() != (mit = configMap.find(active_downloads_size_ss))) { int n=5 ; sscanf(mit->second.c_str(), "%d", &n); std::cerr << "Note: loading active max downloads: " << n << std::endl; setQueueSize(n); } if (configMap.end() != (mit = configMap.find(partial_dir_ss))) { setPartialsDirectory(mit->second); } if (configMap.end() != (mit = configMap.find(default_encryption_policy_ss))) { if(mit->second == "STRICT") { mDefaultEncryptionPolicy = RS_FILE_CTRL_ENCRYPTION_POLICY_STRICT ; std::cerr << "Note: loading default value for encryption policy: STRICT" << std::endl; } else if(mit->second == "PERMISSIVE") { mDefaultEncryptionPolicy = RS_FILE_CTRL_ENCRYPTION_POLICY_PERMISSIVE ; std::cerr << "Note: loading default value for encryption policy: PERMISSIVE" << std::endl; } else { std::cerr << "(EE) encryption policy not recognized: \"" << mit->second << "\"" << std::endl; mDefaultEncryptionPolicy = RS_FILE_CTRL_ENCRYPTION_POLICY_PERMISSIVE ; } } if (configMap.end() != (mit = configMap.find(default_chunk_strategy_ss))) { if(mit->second == "STREAMING") { setDefaultChunkStrategy(FileChunksInfo::CHUNK_STRATEGY_STREAMING) ; std::cerr << "Note: loading default value for chunk strategy: streaming" << std::endl; } else if(mit->second == "RANDOM") { setDefaultChunkStrategy(FileChunksInfo::CHUNK_STRATEGY_RANDOM) ; std::cerr << "Note: loading default value for chunk strategy: random" << std::endl; } else if(mit->second == "PROGRESSIVE") { setDefaultChunkStrategy(FileChunksInfo::CHUNK_STRATEGY_PROGRESSIVE) ; std::cerr << "Note: loading default value for chunk strategy: progressive" << std::endl; } else std::cerr << "**** ERROR ***: Unknown value for default chunk strategy in keymap." << std::endl ; } if (configMap.end() != (mit = configMap.find(free_space_limit_ss))) { uint32_t size ; if (sscanf(mit->second.c_str(), "%u", &size) == 1) { std::cerr << "have read a size limit of " << size <<" MB" << std::endl ; RsDiscSpace::setFreeSpaceLimit(size) ; } } if(configMap.end() != (mit = configMap.find(max_uploads_per_friend_ss))) { uint32_t n ; if (sscanf(mit->second.c_str(), "%u", &n) == 1) { std::cerr << "have read a max upload slots limit of " << n << std::endl ; _max_uploads_per_friend = n ; } } if(configMap.end() != (mit = configMap.find(file_perm_direct_dl_ss))) { if(mit->second == "YES") { mFilePermDirectDLPolicy = RS_FILE_PERM_DIRECT_DL_YES ; std::cerr << "Note: loading default value for file permission direct download: YES" << std::endl; } else if(mit->second == "NO") { mFilePermDirectDLPolicy = RS_FILE_PERM_DIRECT_DL_NO ; std::cerr << "Note: loading default value for file permission direct download: NO" << std::endl; } else if(mit->second == "PER_USER") { mFilePermDirectDLPolicy = RS_FILE_PERM_DIRECT_DL_PER_USER ; std::cerr << "Note: loading default value for file permission direct download: PER_USER" << std::endl; } } return true; } void ftController::setMaxUploadsPerFriend(uint32_t m) { RsStackMutex stack(ctrlMutex); /******* LOCKED ********/ _max_uploads_per_friend = m ; IndicateConfigChanged(); } uint32_t ftController::getMaxUploadsPerFriend() { RsStackMutex stack(ctrlMutex); /******* LOCKED ********/ return _max_uploads_per_friend ; } void ftController::setDefaultEncryptionPolicy(uint32_t p) { RsStackMutex stack(ctrlMutex); /******* LOCKED ********/ mDefaultEncryptionPolicy = p ; IndicateConfigChanged(); } uint32_t ftController::defaultEncryptionPolicy() { RsStackMutex stack(ctrlMutex); /******* LOCKED ********/ return mDefaultEncryptionPolicy ; } void ftController::setFilePermDirectDL(uint32_t perm) { RsStackMutex stack(ctrlMutex); /******* LOCKED ********/ if (mFilePermDirectDLPolicy != perm) { mFilePermDirectDLPolicy = perm; IndicateConfigChanged(); } } uint32_t ftController::filePermDirectDL() { RsStackMutex stack(ctrlMutex); /******* LOCKED ********/ return mFilePermDirectDLPolicy; } void ftController::setFreeDiskSpaceLimit(uint32_t size_in_mb) { RsDiscSpace::setFreeSpaceLimit(size_in_mb) ; IndicateConfigChanged() ; } uint32_t ftController::freeDiskSpaceLimit() const { return RsDiscSpace::freeSpaceLimit() ; } FileChunksInfo::ChunkStrategy ftController::defaultChunkStrategy() { RsStackMutex stack(ctrlMutex); /******* LOCKED ********/ return mDefaultChunkStrategy ; } void ftController::setDefaultChunkStrategy(FileChunksInfo::ChunkStrategy S) { RsStackMutex stack(ctrlMutex); /******* LOCKED ********/ #ifdef CONTROL_DEBUG std::cerr << "Note: in frController: setting chunk strategy to " << S << std::endl ; #endif mDefaultChunkStrategy = S ; IndicateConfigChanged() ; }