/* * libretroshare/src/ft: ftserver.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". * */ #include /* for (u)sleep() */ #include #include "util/rsdebug.h" #include "util/rsdir.h" #include "retroshare/rstypes.h" #include "retroshare/rspeers.h" const int ftserverzone = 29539; #include "ft/ftturtlefiletransferitem.h" #include "ft/ftserver.h" #include "ft/ftextralist.h" #include "ft/ftfilesearch.h" #include "ft/ftcontroller.h" #include "ft/ftfileprovider.h" #include "ft/ftdatamultiplex.h" //#include "ft/ftdwlqueue.h" #include "turtle/p3turtle.h" // Includes CacheStrapper / FiMonitor / FiStore for us. #include "ft/ftdbase.h" #include "pqi/pqi.h" #include "pqi/p3linkmgr.h" #include "serialiser/rsserviceids.h" /*** * #define SERVER_DEBUG 1 * #define DEBUG_TICK 1 ***/ /* Setup */ ftServer::ftServer(p3PeerMgr *pm, p3LinkMgr *lm) : mP3iface(NULL), mPeerMgr(pm), mLinkMgr(lm), mCacheStrapper(NULL), mFiStore(NULL), mFiMon(NULL), mFtController(NULL), mFtExtra(NULL), mFtDataplex(NULL), mFtSearch(NULL), srvMutex("ftServer") { mCacheStrapper = new ftCacheStrapper(lm); } void ftServer::setConfigDirectory(std::string path) { mConfigPath = path; /* Must update the sub classes ... if they exist * TODO. */ std::string basecachedir = mConfigPath + "/cache"; std::string localcachedir = mConfigPath + "/cache/local"; std::string remotecachedir = mConfigPath + "/cache/remote"; RsDirUtil::checkCreateDirectory(basecachedir) ; RsDirUtil::checkCreateDirectory(localcachedir) ; RsDirUtil::checkCreateDirectory(remotecachedir) ; } void ftServer::setP3Interface(P3Interface *pqi) { mP3iface = pqi; } /* Control Interface */ /* add Config Items (Extra, Controller) */ void ftServer::addConfigComponents(p3ConfigMgr */*mgr*/) { /* NOT SURE ABOUT THIS ONE */ } std::string ftServer::OwnId() { std::string ownId; if (mLinkMgr) ownId = mLinkMgr->getOwnId(); return ownId; } /* Final Setup (once everything is assigned) */ void ftServer::SetupFtServer(NotifyBase *cb) { /* setup FiStore/Monitor */ std::string localcachedir = mConfigPath + "/cache/local"; std::string remotecachedir = mConfigPath + "/cache/remote"; std::string ownId = mLinkMgr->getOwnId(); /* search/extras List */ mFtExtra = new ftExtraList(); mFtSearch = new ftFileSearch(); /* Transport */ mFtDataplex = new ftDataMultiplex(ownId, this, mFtSearch); /* make Controller */ mFtController = new ftController(mCacheStrapper, mFtDataplex, mConfigPath); mFtController -> setFtSearchNExtra(mFtSearch, mFtExtra); std::string tmppath = "."; mFtController->setPartialsDirectory(tmppath); mFtController->setDownloadDirectory(tmppath); /* Make Cache Source/Store */ mFiStore = new ftFiStore(mCacheStrapper, mFtController, cb, mPeerMgr, ownId, remotecachedir); mFiMon = new ftFiMonitor(mCacheStrapper,cb, localcachedir, ownId,mConfigPath); /* now add the set to the cachestrapper */ CachePair cp(mFiMon, mFiStore, CacheId(RS_SERVICE_TYPE_FILE_INDEX, 0)); mCacheStrapper -> addCachePair(cp); /* complete search setup */ mFtSearch->addSearchMode(mCacheStrapper, RS_FILE_HINTS_CACHE); mFtSearch->addSearchMode(mFtExtra, RS_FILE_HINTS_EXTRA); mFtSearch->addSearchMode(mFiMon, RS_FILE_HINTS_LOCAL); mFtSearch->addSearchMode(mFiStore, RS_FILE_HINTS_REMOTE); mLinkMgr->addMonitor(mFtController); mLinkMgr->addMonitor(mCacheStrapper); return; } void ftServer::connectToTurtleRouter(p3turtle *fts) { mTurtleRouter = fts ; mFtController->setTurtleRouter(fts) ; mFtController->setFtServer(this) ; mTurtleRouter->registerTunnelService(this) ; } void ftServer::StartupThreads() { /* start up order - important for dependencies */ /* self contained threads */ /* startup ExtraList Thread */ mFtExtra->start(); /* startup Monitor Thread */ /* startup the FileMonitor (after cache load) */ /* start it up */ mFiMon->start(); /* Controller thread */ mFtController->start(); /* Dataplex */ mFtDataplex->start(); /* start own thread */ start(); } void ftServer::StopThreads() { /* stop own thread */ join(); /* stop Dataplex */ mFtDataplex->join(); /* stop Controller thread */ mFtController->join(); /* stop Monitor Thread */ mFiMon->join(); /* self contained threads */ /* stop ExtraList Thread */ mFtExtra->join(); delete (mFtDataplex); mFtDataplex = NULL; delete (mFtController); mFtController = NULL; delete (mFiMon); mFiMon = NULL; delete (mFtExtra); mFtExtra = NULL; } CacheStrapper *ftServer::getCacheStrapper() { return mCacheStrapper; } CacheTransfer *ftServer::getCacheTransfer() { return mFtController; } void ftServer::run() { while(isRunning()) { mFtDataplex->deleteUnusedServers() ; mFtDataplex->handlePendingCrcRequests() ; mFtDataplex->dispatchReceivedChunkCheckSum() ; #ifdef WIN32 Sleep(5000); #else sleep(5); #endif } } /***************************************************************/ /********************** RsFiles Interface **********************/ /***************************************************************/ /***************************************************************/ /********************** Controller Access **********************/ /***************************************************************/ bool ftServer::checkHash(const std::string& hash,std::string& error_string) { static const uint32_t HASH_LENGTH = 40 ; if(hash.length() != HASH_LENGTH) { rs_sprintf(error_string, "Line too long : %u chars, %ld expected.", hash.length(), HASH_LENGTH) ; return false ; } for(uint32_t i=0;i 47 && hash[i] < 58) || (hash[i] > 96 && hash[i] < 103))) { rs_sprintf(error_string, "unexpected char code=%d '%c'", (int)hash[i], hash[i]) ; return false ; } return true ; } bool ftServer::alreadyHaveFile(const std::string& hash, FileInfo &info) { return mFtController->alreadyHaveFile(hash, info); } bool ftServer::FileRequest(const std::string& fname, const std::string& hash, uint64_t size, const std::string& dest, TransferRequestFlags flags, const std::list& srcIds) { std::string error_string ; if(!checkHash(hash,error_string)) { rsicontrol->getNotify().notifyErrorMsg(0,0,"Error handling hash \""+hash+"\". This hash appears to be invalid(Error string=\""+error_string+"\"). This is probably due an bad handling of strings.") ; return false ; } std::cerr << "Requesting " << fname << std::endl ; if(!mFtController->FileRequest(fname, hash, size, dest, flags, srcIds)) return false ; return true ; } bool ftServer::setDestinationName(const std::string& hash,const std::string& name) { return mFtController->setDestinationName(hash,name); } bool ftServer::setDestinationDirectory(const std::string& hash,const std::string& directory) { return mFtController->setDestinationDirectory(hash,directory); } bool ftServer::setChunkStrategy(const std::string& hash,FileChunksInfo::ChunkStrategy s) { return mFtController->setChunkStrategy(hash,s); } uint32_t ftServer::freeDiskSpaceLimit()const { return mFtController->freeDiskSpaceLimit() ; } void ftServer::setFreeDiskSpaceLimit(uint32_t s) { mFtController->setFreeDiskSpaceLimit(s) ; } void ftServer::setDefaultChunkStrategy(FileChunksInfo::ChunkStrategy s) { mFtController->setDefaultChunkStrategy(s) ; } FileChunksInfo::ChunkStrategy ftServer::defaultChunkStrategy() { return mFtController->defaultChunkStrategy() ; } bool ftServer::FileCancel(const std::string& hash) { // Remove from both queue and ftController, by default. // mFtController->FileCancel(hash); return true ; } bool ftServer::FileControl(const std::string& hash, uint32_t flags) { return mFtController->FileControl(hash, flags); } bool ftServer::FileClearCompleted() { return mFtController->FileClearCompleted(); } void ftServer::setMinPrioritizedTransfers(uint32_t s) { mFtController->setMinPrioritizedTransfers(s) ; } uint32_t ftServer::getMinPrioritizedTransfers() { return mFtController->getMinPrioritizedTransfers() ; } void ftServer::setQueueSize(uint32_t s) { mFtController->setQueueSize(s) ; } uint32_t ftServer::getQueueSize() { return mFtController->getQueueSize() ; } /* Control of Downloads Priority. */ bool ftServer::changeQueuePosition(const std::string hash, QueueMove mv) { mFtController->moveInQueue(hash,mv) ; return true ; } bool ftServer::changeDownloadSpeed(const std::string hash, int speed) { mFtController->setPriority(hash, (DwlSpeed)speed); return true ; } bool ftServer::getDownloadSpeed(const std::string hash, int & speed) { DwlSpeed _speed; int ret = mFtController->getPriority(hash, _speed); if (ret) speed = _speed; return ret; } bool ftServer::clearDownload(const std::string /*hash*/) { return true ; } bool ftServer::FileDownloadChunksDetails(const std::string& hash,FileChunksInfo& info) { return mFtController->getFileDownloadChunksDetails(hash,info); } /* Directory Handling */ void ftServer::setDownloadDirectory(std::string path) { mFtController->setDownloadDirectory(path); } std::string ftServer::getDownloadDirectory() { return mFtController->getDownloadDirectory(); } void ftServer::setPartialsDirectory(std::string path) { mFtController->setPartialsDirectory(path); } std::string ftServer::getPartialsDirectory() { return mFtController->getPartialsDirectory(); } /***************************************************************/ /************************* Other Access ************************/ /***************************************************************/ bool ftServer::FileDownloads(std::list &hashs) { return mFtController->FileDownloads(hashs); /* this only contains downloads.... not completed */ //return mFtDataplex->FileDownloads(hashs); } bool ftServer::FileUploadChunksDetails(const std::string& hash,const std::string& peer_id,CompressedChunkMap& cmap) { return mFtDataplex->getClientChunkMap(hash,peer_id,cmap); } bool ftServer::FileUploads(std::list &hashs) { return mFtDataplex->FileUploads(hashs); } bool ftServer::FileDetails(const std::string &hash, FileSearchFlags hintflags, FileInfo &info) { if (hintflags & RS_FILE_HINTS_DOWNLOAD) if(mFtController->FileDetails(hash, info)) return true ; if(hintflags & RS_FILE_HINTS_UPLOAD) if(mFtDataplex->FileDetails(hash, hintflags, info)) { // We also check if the file is a DL as well. In such a case we use // the DL as the file name, to replace the hash. If the file is a cache // file, we skip the call to fileDetails() for efficiency reasons. // FileInfo info2 ; if( (!(info.transfer_info_flags & RS_FILE_REQ_CACHE)) && mFtController->FileDetails(hash, info2)) info.fname = info2.fname ; return true ; } if(hintflags & ~(RS_FILE_HINTS_UPLOAD | RS_FILE_HINTS_DOWNLOAD)) if(mFtSearch->search(hash, hintflags, info)) return true ; return false; } RsTurtleGenericTunnelItem *ftServer::deserialiseItem(void *data,uint32_t size) const { uint32_t rstype = getRsItemId(data); #ifdef SERVER_DEBUG std::cerr << "p3turtle: deserialising packet: " << std::endl ; #endif #ifdef SERVER_DEBUG if ((RS_PKT_VERSION_SERVICE != getRsItemVersion(rstype)) || (RS_SERVICE_TYPE_TURTLE != getRsItemService(rstype))) { #ifdef SERVER_DEBUG std::cerr << " Wrong type !!" << std::endl ; #endif return NULL; /* wrong type */ } #endif switch(getRsItemSubType(rstype)) { case RS_TURTLE_SUBTYPE_FILE_REQUEST : return new RsTurtleFileRequestItem(data,size) ; case RS_TURTLE_SUBTYPE_FILE_DATA : return new RsTurtleFileDataItem(data,size) ; case RS_TURTLE_SUBTYPE_FILE_MAP_REQUEST : return new RsTurtleFileMapRequestItem(data,size) ; case RS_TURTLE_SUBTYPE_FILE_MAP : return new RsTurtleFileMapItem(data,size) ; case RS_TURTLE_SUBTYPE_FILE_CRC_REQUEST : return new RsTurtleFileCrcRequestItem(data,size) ; case RS_TURTLE_SUBTYPE_FILE_CRC : return new RsTurtleFileCrcItem(data,size) ; case RS_TURTLE_SUBTYPE_CHUNK_CRC_REQUEST : return new RsTurtleChunkCrcRequestItem(data,size) ; case RS_TURTLE_SUBTYPE_CHUNK_CRC : return new RsTurtleChunkCrcItem(data,size) ; default: return NULL ; } } void ftServer::addVirtualPeer(const TurtleFileHash& hash,const TurtleVirtualPeerId& virtual_peer_id,RsTurtleGenericTunnelItem::Direction dir) { if(dir == RsTurtleGenericTunnelItem::DIRECTION_SERVER) mFtController->addFileSource(hash,virtual_peer_id) ; } void ftServer::removeVirtualPeer(const TurtleFileHash& hash,const TurtleVirtualPeerId& virtual_peer_id) { mFtController->removeFileSource(hash,virtual_peer_id) ; } bool ftServer::handleTunnelRequest(const std::string& hash,const std::string& peer_id) { FileInfo info ; bool res = FileDetails(hash, RS_FILE_HINTS_NETWORK_WIDE | RS_FILE_HINTS_LOCAL | RS_FILE_HINTS_EXTRA | RS_FILE_HINTS_SPEC_ONLY | RS_FILE_HINTS_DOWNLOAD, info); #ifdef SERVER_DEBUG std::cerr << "ftServer: performing local hash search for hash " << hash << std::endl; if(res) { std::cerr << "Found hash: " << std::endl; std::cerr << " hash = " << hash << std::endl; std::cerr << " peer = " << peer_id << std::endl; std::cerr << " flags = " << info.storage_permission_flags << std::endl; std::cerr << " local = " << rsFiles->FileDetails(hash, RS_FILE_HINTS_NETWORK_WIDE | RS_FILE_HINTS_LOCAL | RS_FILE_HINTS_EXTRA | RS_FILE_HINTS_SPEC_ONLY | RS_FILE_HINTS_DOWNLOAD, info) << std::endl; std::cerr << " groups= " ; for(std::list::const_iterator it(info.parent_groups.begin());it!=info.parent_groups.end();++it) std::cerr << (*it) << ", " ; std::cerr << std::endl; std::cerr << " clear = " << rsPeers->computePeerPermissionFlags(peer_id,info.storage_permission_flags,info.parent_groups) << std::endl; } #endif // The call to computeHashPeerClearance() return a combination of RS_FILE_HINTS_NETWORK_WIDE and RS_FILE_HINTS_BROWSABLE // This is an additional computation cost, but the way it's written here, it's only called when res is true. // res = res && (RS_FILE_HINTS_NETWORK_WIDE & rsPeers->computePeerPermissionFlags(peer_id,info.storage_permission_flags,info.parent_groups)) ; return res ; } /***************************************************************/ /******************* ExtraFileList Access **********************/ /***************************************************************/ bool ftServer::ExtraFileAdd(std::string fname, std::string hash, uint64_t size, uint32_t period, TransferRequestFlags flags) { return mFtExtra->addExtraFile(fname, hash, size, period, flags); } bool ftServer::ExtraFileRemove(std::string hash, TransferRequestFlags flags) { return mFtExtra->removeExtraFile(hash, flags); } bool ftServer::ExtraFileHash(std::string localpath, uint32_t period, TransferRequestFlags flags) { return mFtExtra->hashExtraFile(localpath, period, flags); } bool ftServer::ExtraFileStatus(std::string localpath, FileInfo &info) { return mFtExtra->hashExtraFileDone(localpath, info); } bool ftServer::ExtraFileMove(std::string fname, std::string hash, uint64_t size, std::string destpath) { return mFtExtra->moveExtraFile(fname, hash, size, destpath); } /***************************************************************/ /******************** Directory Listing ************************/ /***************************************************************/ int ftServer::RequestDirDetails(const std::string& uid, const std::string& path, DirDetails &details) { #ifdef SERVER_DEBUG std::cerr << "ftServer::RequestDirDetails(uid:" << uid; std::cerr << ", path:" << path << ", ...) -> mFiStore"; std::cerr << std::endl; if (!mFiStore) { std::cerr << "mFiStore not SET yet = FAIL"; std::cerr << std::endl; } #endif if(uid == mLinkMgr->getOwnId()) return mFiMon->RequestDirDetails(path, details); else return mFiStore->RequestDirDetails(uid, path, details); } int ftServer::RequestDirDetails(void *ref, DirDetails &details, FileSearchFlags flags) { #ifdef SERVER_DEBUG std::cerr << "ftServer::RequestDirDetails(ref:" << ref; std::cerr << ", flags:" << flags << ", ...) -> mFiStore"; std::cerr << std::endl; if (!mFiStore) { std::cerr << "mFiStore not SET yet = FAIL"; std::cerr << std::endl; } #endif if(flags & RS_FILE_HINTS_LOCAL) return mFiMon->RequestDirDetails(ref, details, flags); else return mFiStore->RequestDirDetails(ref, details, flags); } uint32_t ftServer::getType(void *ref, FileSearchFlags flags) { #ifdef SERVER_DEBUG std::cerr << "ftServer::RequestDirDetails(ref:" << ref; std::cerr << ", flags:" << flags << ", ...) -> mFiStore"; std::cerr << std::endl; if (!mFiStore) { std::cerr << "mFiStore not SET yet = FAIL"; std::cerr << std::endl; } #endif if(flags & RS_FILE_HINTS_LOCAL) return mFiMon->getType(ref); else return mFiStore->getType(ref); } /***************************************************************/ /******************** Search Interface *************************/ /***************************************************************/ int ftServer::SearchKeywords(std::list keywords, std::list &results,FileSearchFlags flags) { if(flags & RS_FILE_HINTS_LOCAL) return mFiMon->SearchKeywords(keywords, results,flags,""); else return mFiStore->SearchKeywords(keywords, results,flags); return 0 ; } int ftServer::SearchKeywords(std::list keywords, std::list &results,FileSearchFlags flags,const std::string& peer_id) { #ifdef SERVER_DEBUG std::cerr << "ftServer::SearchKeywords()"; std::cerr << std::endl; if (!mFiStore) { std::cerr << "mFiStore not SET yet = FAIL"; std::cerr << std::endl; } #endif if(flags & RS_FILE_HINTS_LOCAL) return mFiMon->SearchKeywords(keywords, results,flags,peer_id); else return mFiStore->SearchKeywords(keywords, results,flags); } int ftServer::SearchBoolExp(Expression * exp, std::list &results,FileSearchFlags flags) { if(flags & RS_FILE_HINTS_LOCAL) return mFiMon->SearchBoolExp(exp,results,flags,"") ; else return mFiStore->searchBoolExp(exp, results); return 0 ; } int ftServer::SearchBoolExp(Expression * exp, std::list &results,FileSearchFlags flags,const std::string& peer_id) { if(flags & RS_FILE_HINTS_LOCAL) return mFiMon->SearchBoolExp(exp,results,flags,peer_id) ; else return mFiStore->searchBoolExp(exp, results); } /***************************************************************/ /*************** Local Shared Dir Interface ********************/ /***************************************************************/ bool ftServer::ConvertSharedFilePath(std::string path, std::string &fullpath) { return mFiMon->convertSharedFilePath(path, fullpath); } void ftServer::updateSinceGroupPermissionsChanged() { mFiMon->forceDirListsRebuildAndSend(); } void ftServer::ForceDirectoryCheck() { mFiMon->forceDirectoryCheck(); return; } bool ftServer::InDirectoryCheck() { return mFiMon->inDirectoryCheck(); } bool ftServer::copyFile(const std::string& source, const std::string& dest) { return mFtController->copyFile(source, dest); } bool ftServer::getSharedDirectories(std::list &dirs) { mFiMon->getSharedDirectories(dirs); return true; } bool ftServer::setSharedDirectories(std::list &dirs) { mFiMon->setSharedDirectories(dirs); return true; } bool ftServer::addSharedDirectory(const SharedDirInfo& dir) { SharedDirInfo _dir = dir; _dir.filename = RsDirUtil::convertPathToUnix(_dir.filename); std::list dirList; mFiMon->getSharedDirectories(dirList); // check that the directory is not already in the list. for(std::list::const_iterator it(dirList.begin());it!=dirList.end();++it) if((*it).filename == _dir.filename) return false ; // ok then, add the shared directory. dirList.push_back(_dir); mFiMon->setSharedDirectories(dirList); return true; } bool ftServer::updateShareFlags(const SharedDirInfo& info) { mFiMon->updateShareFlags(info); return true ; } bool ftServer::removeSharedDirectory(std::string dir) { dir = RsDirUtil::convertPathToUnix(dir); std::list dirList; std::list::iterator it; #ifdef SERVER_DEBUG std::cerr << "ftServer::removeSharedDirectory(" << dir << ")"; std::cerr << std::endl; #endif mFiMon->getSharedDirectories(dirList); #ifdef SERVER_DEBUG for(it = dirList.begin(); it != dirList.end(); it++) { std::cerr << "ftServer::removeSharedDirectory()"; std::cerr << " existing: " << (*it).filename; std::cerr << std::endl; } #endif for(it = dirList.begin();it!=dirList.end() && (*it).filename != dir;++it) ; if(it == dirList.end()) { #ifdef SERVER_DEBUG std::cerr << "ftServer::removeSharedDirectory()"; std::cerr << " Cannot Find Directory... Fail"; std::cerr << std::endl; #endif return false; } #ifdef SERVER_DEBUG std::cerr << "ftServer::removeSharedDirectory()"; std::cerr << " Updating Directories"; std::cerr << std::endl; #endif dirList.erase(it); mFiMon->setSharedDirectories(dirList); return true; } void ftServer::setWatchPeriod(int minutes) { mFiMon->setWatchPeriod(minutes*60) ; } int ftServer::watchPeriod() const { return mFiMon->watchPeriod()/60 ; } void ftServer::setRememberHashFiles(bool b) { mFiMon->setRememberHashCache(b) ; } bool ftServer::rememberHashFiles() const { return mFiMon->rememberHashCache() ; } void ftServer::setRememberHashFilesDuration(uint32_t days) { mFiMon->setRememberHashCacheDuration(days) ; } uint32_t ftServer::rememberHashFilesDuration() const { return mFiMon->rememberHashCacheDuration() ; } void ftServer::clearHashCache() { mFiMon->clearHashCache() ; } bool ftServer::getShareDownloadDirectory() { std::list dirList; mFiMon->getSharedDirectories(dirList); std::string dir = mFtController->getDownloadDirectory(); // check if the download directory is in the list. for (std::list::const_iterator it(dirList.begin()); it != dirList.end(); ++it) if ((*it).filename == dir) return true; return false; } bool ftServer::shareDownloadDirectory(bool share) { if (share) { /* Share */ SharedDirInfo inf ; inf.filename = mFtController->getDownloadDirectory(); inf.shareflags = DIR_FLAGS_NETWORK_WIDE_OTHERS ; return addSharedDirectory(inf); } /* Unshare */ std::string dir = mFtController->getDownloadDirectory(); return removeSharedDirectory(dir); } /***************************************************************/ /****************** End of RsFiles Interface *******************/ /***************************************************************/ /***************************************************************/ /**************** Config Interface *****************************/ /***************************************************************/ /* Key Functions to be overloaded for Full Configuration */ RsSerialiser *ftServer::setupSerialiser() { return NULL; } bool ftServer::saveList(bool &/*cleanup*/, std::list& /*list*/) { return true; } bool ftServer::loadList(std::list& /*load*/) { return true; } bool ftServer::loadConfigMap(std::map &/*configMap*/) { return true; } /***************************************************************/ /********************** Data Flow **********************/ /***************************************************************/ /* Client Send */ bool ftServer::sendDataRequest(const std::string& peerId, const std::string& hash, uint64_t size, uint64_t offset, uint32_t chunksize) { if(mTurtleRouter->isTurtlePeer(peerId)) { RsTurtleFileRequestItem *item = new RsTurtleFileRequestItem ; item->chunk_offset = offset ; item->chunk_size = chunksize ; mTurtleRouter->sendTurtleData(peerId,item) ; } else { /* create a packet */ /* push to networking part */ RsFileRequest *rfi = new RsFileRequest(); /* id */ rfi->PeerId(peerId); /* file info */ rfi->file.filesize = size; rfi->file.hash = hash; /* ftr->hash; */ /* offsets */ rfi->fileoffset = offset; /* ftr->offset; */ rfi->chunksize = chunksize; /* ftr->chunk; */ mP3iface->SendFileRequest(rfi); } return true; } bool ftServer::sendChunkMapRequest(const std::string& peerId,const std::string& hash,bool is_client) { if(mTurtleRouter->isTurtlePeer(peerId)) { RsTurtleFileMapRequestItem *item = new RsTurtleFileMapRequestItem ; mTurtleRouter->sendTurtleData(peerId,item) ; } else { /* create a packet */ /* push to networking part */ RsFileChunkMapRequest *rfi = new RsFileChunkMapRequest(); /* id */ rfi->PeerId(peerId); /* file info */ rfi->hash = hash; /* ftr->hash; */ rfi->is_client = is_client ; mP3iface->SendFileChunkMapRequest(rfi); } return true ; } bool ftServer::sendChunkMap(const std::string& peerId,const std::string& hash,const CompressedChunkMap& map,bool is_client) { if(mTurtleRouter->isTurtlePeer(peerId)) { RsTurtleFileMapItem *item = new RsTurtleFileMapItem ; item->compressed_map = map ; mTurtleRouter->sendTurtleData(peerId,item) ; } else { /* create a packet */ /* push to networking part */ RsFileChunkMap *rfi = new RsFileChunkMap(); /* id */ rfi->PeerId(peerId); /* file info */ rfi->hash = hash; /* ftr->hash; */ rfi->is_client = is_client; /* ftr->hash; */ rfi->compressed_map = map; /* ftr->hash; */ mP3iface->SendFileChunkMap(rfi); } return true ; } bool ftServer::sendCRC32MapRequest(const std::string& peerId,const std::string& hash) { if(mTurtleRouter->isTurtlePeer(peerId)) { RsTurtleFileCrcRequestItem *item = new RsTurtleFileCrcRequestItem; mTurtleRouter->sendTurtleData(peerId,item) ; } else { /* create a packet */ /* push to networking part */ RsFileCRC32MapRequest *rfi = new RsFileCRC32MapRequest(); /* id */ rfi->PeerId(peerId); /* file info */ rfi->hash = hash; /* ftr->hash; */ mP3iface->SendFileCRC32MapRequest(rfi); } return true ; } bool ftServer::sendSingleChunkCRCRequest(const std::string& peerId,const std::string& hash,uint32_t chunk_number) { if(mTurtleRouter->isTurtlePeer(peerId)) { RsTurtleChunkCrcRequestItem *item = new RsTurtleChunkCrcRequestItem; item->chunk_number = chunk_number ; mTurtleRouter->sendTurtleData(peerId,item) ; } else { /* create a packet */ /* push to networking part */ RsFileSingleChunkCrcRequest *rfi = new RsFileSingleChunkCrcRequest(); /* id */ rfi->PeerId(peerId); /* file info */ rfi->hash = hash; /* ftr->hash; */ rfi->chunk_number = chunk_number ; mP3iface->SendFileSingleChunkCrcRequest(rfi); } return true ; } bool ftServer::sendCRC32Map(const std::string& peerId,const std::string& hash,const CRC32Map& crcmap) { if(mTurtleRouter->isTurtlePeer(peerId)) { RsTurtleFileCrcItem *item = new RsTurtleFileCrcItem ; item->crc_map = crcmap ; mTurtleRouter->sendTurtleData(peerId,item) ; } else { /* create a packet */ /* push to networking part */ RsFileCRC32Map *rfi = new RsFileCRC32Map(); /* id */ rfi->PeerId(peerId); /* file info */ rfi->hash = hash; /* ftr->hash; */ rfi->crc_map = crcmap; /* ftr->hash; */ mP3iface->SendFileCRC32Map(rfi); } return true ; } bool ftServer::sendSingleChunkCRC(const std::string& peerId,const std::string& hash,uint32_t chunk_number,const Sha1CheckSum& crc) { if(mTurtleRouter->isTurtlePeer(peerId)) { RsTurtleChunkCrcItem *item = new RsTurtleChunkCrcItem; item->chunk_number = chunk_number ; item->check_sum = crc ; mTurtleRouter->sendTurtleData(peerId,item) ; } else { /* create a packet */ /* push to networking part */ RsFileSingleChunkCrc *rfi = new RsFileSingleChunkCrc(); /* id */ rfi->PeerId(peerId); /* file info */ rfi->hash = hash; /* ftr->hash; */ rfi->check_sum = crc; rfi->chunk_number = chunk_number; mP3iface->SendFileSingleChunkCrc(rfi); } return true ; } //const uint32_t MAX_FT_CHUNK = 32 * 1024; /* 32K */ //const uint32_t MAX_FT_CHUNK = 16 * 1024; /* 16K */ const uint32_t MAX_FT_CHUNK = 8 * 1024; /* 16K */ /* Server Send */ bool ftServer::sendData(const std::string& peerId, const std::string& hash, uint64_t size, uint64_t baseoffset, uint32_t chunksize, void *data) { /* create a packet */ /* push to networking part */ uint32_t tosend = chunksize; uint64_t offset = 0; uint32_t chunk; #ifdef SERVER_DEBUG std::cerr << "ftServer::sendData() to " << peerId << std::endl; std::cerr << "hash: " << hash; std::cerr << " offset: " << baseoffset; std::cerr << " chunk: " << chunksize; std::cerr << " data: " << data; std::cerr << std::endl; #endif while(tosend > 0) { /* workout size */ chunk = MAX_FT_CHUNK; if (chunk > tosend) { chunk = tosend; } /******** New Serialiser Type *******/ if(mTurtleRouter->isTurtlePeer(peerId)) { RsTurtleFileDataItem *item = new RsTurtleFileDataItem ; item->chunk_offset = offset+baseoffset ; item->chunk_size = chunk; item->chunk_data = malloc(chunk) ; if(item->chunk_data == NULL) { std::cerr << "p3turtle: Warning: failed malloc of " << chunk << " bytes for sending data packet." << std::endl ; delete item; return false; } memcpy(item->chunk_data,&(((uint8_t *) data)[offset]),chunk) ; mTurtleRouter->sendTurtleData(peerId,item) ; } else { RsFileData *rfd = new RsFileData(); /* set id */ rfd->PeerId(peerId); /* file info */ rfd->fd.file.filesize = size; rfd->fd.file.hash = hash; rfd->fd.file.name = ""; /* blank other data */ rfd->fd.file.path = ""; rfd->fd.file.pop = 0; rfd->fd.file.age = 0; rfd->fd.file_offset = baseoffset + offset; /* file data */ rfd->fd.binData.setBinData( &(((uint8_t *) data)[offset]), chunk); mP3iface->SendFileData(rfd); /* print the data pointer */ #ifdef SERVER_DEBUG std::cerr << "ftServer::sendData() Packet: " << std::endl; std::cerr << " offset: " << rfd->fd.file_offset; std::cerr << " chunk: " << chunk; std::cerr << " len: " << rfd->fd.binData.bin_len; std::cerr << " data: " << rfd->fd.binData.bin_data; std::cerr << std::endl; #endif } offset += chunk; tosend -= chunk; } /* clean up data */ free(data); return true; } void ftServer::receiveTurtleData(RsTurtleGenericTunnelItem *i, const std::string& hash, const std::string& virtual_peer_id, RsTurtleGenericTunnelItem::Direction direction) { switch(i->PacketSubType()) { case RS_TURTLE_SUBTYPE_FILE_REQUEST: { RsTurtleFileRequestItem *item = dynamic_cast(i) ; getMultiplexer()->recvDataRequest(virtual_peer_id,hash,0,item->chunk_offset,item->chunk_size) ; } break ; case RS_TURTLE_SUBTYPE_FILE_DATA : { RsTurtleFileDataItem *item = dynamic_cast(i) ; getMultiplexer()->recvData(virtual_peer_id,hash,0,item->chunk_offset,item->chunk_size,item->chunk_data) ; item->chunk_data = NULL ; // this prevents deletion in the destructor of RsFileDataItem, because data will be deleted // down _ft_server->getMultiplexer()->recvData()...in ftTransferModule::recvFileData } break ; case RS_TURTLE_SUBTYPE_FILE_MAP : { RsTurtleFileMapItem *item = dynamic_cast(i) ; getMultiplexer()->recvChunkMap(virtual_peer_id,hash,item->compressed_map,direction == RsTurtleGenericTunnelItem::DIRECTION_CLIENT) ; } break ; case RS_TURTLE_SUBTYPE_FILE_MAP_REQUEST: { RsTurtleFileMapRequestItem *item = dynamic_cast(i) ; getMultiplexer()->recvChunkMapRequest(virtual_peer_id,hash,direction == RsTurtleGenericTunnelItem::DIRECTION_CLIENT) ; } break ; case RS_TURTLE_SUBTYPE_FILE_CRC : { RsTurtleFileCrcItem *item = dynamic_cast(i) ; getMultiplexer()->recvCRC32Map(virtual_peer_id,hash,item->crc_map) ; } break ; case RS_TURTLE_SUBTYPE_FILE_CRC_REQUEST: { getMultiplexer()->recvCRC32MapRequest(virtual_peer_id,hash) ; } break ; case RS_TURTLE_SUBTYPE_CHUNK_CRC : { RsTurtleChunkCrcItem *item = dynamic_cast(i) ; getMultiplexer()->recvSingleChunkCRC(virtual_peer_id,hash,item->chunk_number,item->check_sum) ; } break ; case RS_TURTLE_SUBTYPE_CHUNK_CRC_REQUEST: { RsTurtleChunkCrcRequestItem *item = dynamic_cast(i) ; getMultiplexer()->recvSingleChunkCRCRequest(virtual_peer_id,hash,item->chunk_number) ; } break ; default: std::cerr << "WARNING: Unknown packet type received: sub_id=" << reinterpret_cast(i->PacketSubType()) << ". Is somebody trying to poison you ?" << std::endl ; } } /* NB: The rsCore lock must be activated before calling this. * This Lock should be moved lower into the system... * most likely destination is in ftServer. */ int ftServer::tick() { rslog(RSL_DEBUG_BASIC, ftserverzone, "filedexserver::tick()"); if (mP3iface == NULL) { #ifdef SERVER_DEBUG std::cerr << "ftServer::tick() ERROR: mP3iface == NULL"; #endif rslog(RSL_DEBUG_BASIC, ftserverzone, "filedexserver::tick() Invalid Interface()"); return 1; } int moreToTick = 0; if (0 < mP3iface -> tick()) { moreToTick = 1; #ifdef DEBUG_TICK std::cerr << "filedexserver::tick() moreToTick from mP3iface" << std::endl; #endif } if (0 < handleInputQueues()) { moreToTick = 1; #ifdef DEBUG_TICK std::cerr << "filedexserver::tick() moreToTick from InputQueues" << std::endl; #endif } return moreToTick; } // This function needs to be divided up. bool ftServer::handleInputQueues() { bool moreToTick = false; if (handleCacheData()) moreToTick = true; if (handleFileData()) moreToTick = true; return moreToTick; } bool ftServer::handleCacheData() { // get all the incoming results.. and print to the screen. RsCacheRequest *cr; RsCacheItem *ci; // Loop through Search Results. int i = 0; int i_init = 0; #ifdef SERVER_DEBUG //std::cerr << "ftServer::handleCacheData()" << std::endl; #endif while((ci = mP3iface -> GetSearchResult()) != NULL) { #ifdef SERVER_DEBUG std::cerr << "ftServer::handleCacheData() Recvd SearchResult (CacheResponse!)" << std::endl; std::string out; if (i++ == i_init) { out += "Recieved Search Results:\n"; } ci -> print_string(out); rslog(RSL_DEBUG_BASIC, ftserverzone, out); #endif /* these go to the CacheStrapper! */ CacheData data; data.pid = ci->PeerId(); data.cid = CacheId(ci->cacheType, ci->cacheSubId); data.path = ci->file.path; data.name = ci->file.name; data.hash = ci->file.hash; data.size = ci->file.filesize; data.recvd = time(NULL) ; mCacheStrapper->recvCacheResponse(data, time(NULL)); delete ci; } // now requested Searches. i_init = i; while((cr = mP3iface -> RequestedSearch()) != NULL) { #ifdef SERVER_DEBUG /* just delete these */ std::string out = "Requested Search:\n"; cr -> print_string(out); rslog(RSL_DEBUG_BASIC, ftserverzone, out); #endif delete cr; } // Now handle it replacement (pushed cache results) { std::list > cacheUpdates; std::list >::iterator it; mCacheStrapper->getCacheUpdates(cacheUpdates); for(it = cacheUpdates.begin(); it != cacheUpdates.end(); it++) { /* construct reply */ RsCacheItem *ci = new RsCacheItem(); /* id from incoming */ ci -> PeerId(it->first); ci -> file.hash = (it->second).hash; ci -> file.name = (it->second).name; ci -> file.path = ""; // (it->second).path; ci -> file.filesize = (it->second).size; ci -> cacheType = (it->second).cid.type; ci -> cacheSubId = (it->second).cid.subid; #ifdef SERVER_DEBUG std::string out2 = "Outgoing CacheStrapper Update -> RsCacheItem:\n"; ci -> print_string(out2); std::cerr << out2 << std::endl; #endif //rslog(RSL_DEBUG_BASIC, ftserverzone, out2.str()); mP3iface -> SendSearchResult(ci); i++; } } return (i > 0); } bool ftServer::handleFileData() { // now File Input. RsFileRequest *fr; RsFileData *fd; RsFileChunkMapRequest *fcmr; RsFileChunkMap *fcm; RsFileCRC32MapRequest *fccrcmr; RsFileCRC32Map *fccrcm; RsFileSingleChunkCrcRequest *fscrcr; RsFileSingleChunkCrc *fscrc; int i_init = 0; int i = 0; i_init = i; while((fr = mP3iface -> GetFileRequest()) != NULL ) { #ifdef SERVER_DEBUG std::cerr << "ftServer::handleFileData() Recvd ftFiler Request" << std::endl; std::string out; if (i == i_init) { out += "Incoming(Net) File Item:\n"; } fr -> print_string(out); rslog(RSL_DEBUG_BASIC, ftserverzone, out); #endif i++; /* count */ mFtDataplex->recvDataRequest(fr->PeerId(), fr->file.hash, fr->file.filesize, fr->fileoffset, fr->chunksize); FileInfo(ffr); delete fr; } // now File Data. i_init = i; while((fd = mP3iface -> GetFileData()) != NULL ) { #ifdef SERVER_DEBUG std::cerr << "ftServer::handleFileData() Recvd ftFiler Data" << std::endl; std::cerr << "hash: " << fd->fd.file.hash; std::cerr << " length: " << fd->fd.binData.bin_len; std::cerr << " data: " << fd->fd.binData.bin_data; std::cerr << std::endl; std::string out; if (i == i_init) { out += "Incoming(Net) File Data:\n"; } fd -> print_string(out); rslog(RSL_DEBUG_BASIC, ftserverzone, out); #endif i++; /* count */ /* incoming data */ mFtDataplex->recvData(fd->PeerId(), fd->fd.file.hash, fd->fd.file.filesize, fd->fd.file_offset, fd->fd.binData.bin_len, fd->fd.binData.bin_data); /* we've stolen the data part -> so blank before delete */ fd->fd.binData.TlvShallowClear(); delete fd; } // now file chunkmap requests i_init = i; while((fcmr = mP3iface -> GetFileChunkMapRequest()) != NULL ) { #ifdef SERVER_DEBUG std::cerr << "ftServer::handleFileData() Recvd ChunkMap request" << std::endl; std::string out; if (i == i_init) { out += "Incoming(Net) File Data:\n"; } fcmr -> print_string(out); rslog(RSL_DEBUG_BASIC, ftserverzone, out); #endif i++; /* count */ /* incoming data */ mFtDataplex->recvChunkMapRequest(fcmr->PeerId(), fcmr->hash,fcmr->is_client) ; delete fcmr; } // now file chunkmaps i_init = i; while((fcm = mP3iface -> GetFileChunkMap()) != NULL ) { #ifdef SERVER_DEBUG std::cerr << "ftServer::handleFileData() Recvd ChunkMap request" << std::endl; std::string out; if (i == i_init) { out += "Incoming(Net) File Data:\n"; } fcm -> print_string(out); rslog(RSL_DEBUG_BASIC, ftserverzone, out); #endif i++; /* count */ /* incoming data */ mFtDataplex->recvChunkMap(fcm->PeerId(), fcm->hash,fcm->compressed_map,fcm->is_client) ; delete fcm; } // now file chunkmap requests i_init = i; while((fccrcmr = mP3iface -> GetFileCRC32MapRequest()) != NULL ) { #ifdef SERVER_DEBUG std::cerr << "ftServer::handleFileData() Recvd ChunkMap request" << std::endl; std::string out; if (i == i_init) { out += "Incoming(Net) File Data:\n"; } fccrcmr -> print_string(out); rslog(RSL_DEBUG_BASIC, ftserverzone, out); #endif i++; /* count */ /* incoming data */ mFtDataplex->recvCRC32MapRequest(fccrcmr->PeerId(), fccrcmr->hash) ; delete fccrcmr; } // now file chunkmaps i_init = i; while((fccrcm = mP3iface -> GetFileCRC32Map()) != NULL ) { #ifdef SERVER_DEBUG std::cerr << "ftServer::handleFileData() Recvd ChunkMap request" << std::endl; std::string out; if (i == i_init) { out += "Incoming(Net) File Data:\n"; } fccrcm -> print_string(out); rslog(RSL_DEBUG_BASIC, ftserverzone, out); #endif i++; /* count */ /* incoming data */ mFtDataplex->recvCRC32Map(fccrcm->PeerId(), fccrcm->hash,fccrcm->crc_map); delete fccrcm; } // now file chunk crc requests i_init = i; while((fscrcr = mP3iface -> GetFileSingleChunkCrcRequest()) != NULL ) { #ifdef SERVER_DEBUG std::cerr << "ftServer::handleFileData() Recvd ChunkMap request" << std::endl; std::string out; if (i == i_init) { out += "Incoming(Net) File CRC Request:\n"; } fscrcr -> print_string(out); rslog(RSL_DEBUG_BASIC, ftserverzone, out); #endif i++; /* count */ /* incoming data */ mFtDataplex->recvSingleChunkCRCRequest(fscrcr->PeerId(), fscrcr->hash,fscrcr->chunk_number) ; delete fscrcr; } // now file chunkmaps i_init = i; while((fscrc = mP3iface -> GetFileSingleChunkCrc()) != NULL ) { #ifdef SERVER_DEBUG std::cerr << "ftServer::handleFileData() Recvd ChunkMap request" << std::endl; std::string out; if (i == i_init) { out += "Incoming(Net) File Data:\n"; } fscrc -> print_string(out); rslog(RSL_DEBUG_BASIC, ftserverzone, out); #endif i++; /* count */ /* incoming data */ mFtDataplex->recvSingleChunkCRC(fscrc->PeerId(), fscrc->hash,fscrc->chunk_number,fscrc->check_sum); delete fscrcr; } if (i > 0) { return 1; } return 0; } /********************************** ********************************** ********************************** *********************************/ /***************************** CONFIG ****************************/ bool ftServer::addConfiguration(p3ConfigMgr *cfgmgr) { /* add all the subbits to config mgr */ cfgmgr->addConfiguration("ft_shared.cfg", mFiMon); cfgmgr->addConfiguration("ft_extra.cfg", mFtExtra); cfgmgr->addConfiguration("ft_transfers.cfg", mFtController); return true; } bool ftServer::ResumeTransfers() { mFtController->activate(); return true; }