RetroShare/libretroshare/src/ft/ftserver.cc

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/*******************************************************************************
* libretroshare/src/ft: ftserver.cc *
* *
* libretroshare: retroshare core library *
* *
* Copyright 2008 by Robert Fernie <retroshare@lunamutt.com> *
* *
* This program is free software: you can redistribute it and/or modify *
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* it under the terms of the GNU Lesser General Public License as *
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* published by the Free Software Foundation, either version 3 of the *
* License, or (at your option) any later version. *
* *
* This program 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 *
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* GNU Lesser General Public License for more details. *
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* *
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* You should have received a copy of the GNU Lesser General Public License *
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* along with this program. If not, see <https://www.gnu.org/licenses/>. *
* *
*******************************************************************************/
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#include "crypto/chacha20.h"
//const int ftserverzone = 29539;
#include "file_sharing/p3filelists.h"
#include "ft/ftcontroller.h"
#include "ft/ftdatamultiplex.h"
//#include "ft/ftdwlqueue.h"
#include "ft/ftextralist.h"
#include "ft/ftfileprovider.h"
#include "ft/ftfilesearch.h"
#include "ft/ftserver.h"
#include "ft/ftturtlefiletransferitem.h"
#include "pqi/p3linkmgr.h"
#include "pqi/p3notify.h"
#include "pqi/pqi.h"
#include "retroshare/rstypes.h"
#include "retroshare/rspeers.h"
#include "retroshare/rsinit.h"
#include "rsitems/rsfiletransferitems.h"
#include "rsitems/rsserviceids.h"
#include "rsserver/p3face.h"
#include "turtle/p3turtle.h"
#include "util/rsdebug.h"
#include "util/rsdir.h"
#include "util/rsprint.h"
#include <iostream>
#include <time.h>
/***
* #define SERVER_DEBUG 1
* #define SERVER_DEBUG_CACHE 1
***/
#define FTSERVER_DEBUG() std::cerr << time(NULL) << " : FILE_SERVER : " << __FUNCTION__ << " : "
#define FTSERVER_ERROR() std::cerr << "(EE) FILE_SERVER ERROR : "
static const time_t FILE_TRANSFER_LOW_PRIORITY_TASKS_PERIOD = 5 ; // low priority tasks handling every 5 seconds
static const time_t FILE_TRANSFER_MAX_DELAY_BEFORE_DROP_USAGE_RECORD = 10 ; // keep usage records for 10 secs at most.
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/* Setup */
ftServer::ftServer(p3PeerMgr *pm, p3ServiceControl *sc)
: p3Service(),RsServiceSerializer(RS_SERVICE_TYPE_TURTLE), // should be FT, but this is for backward compatibility
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mPeerMgr(pm), mServiceCtrl(sc),
mFileDatabase(NULL),
mFtController(NULL), mFtExtra(NULL),
mFtDataplex(NULL), mFtSearch(NULL), srvMutex("ftServer")
{
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addSerialType(new RsFileTransferSerialiser()) ;
}
const std::string FILE_TRANSFER_APP_NAME = "ft";
const uint16_t FILE_TRANSFER_APP_MAJOR_VERSION = 1;
const uint16_t FILE_TRANSFER_APP_MINOR_VERSION = 0;
const uint16_t FILE_TRANSFER_MIN_MAJOR_VERSION = 1;
const uint16_t FILE_TRANSFER_MIN_MINOR_VERSION = 0;
RsServiceInfo ftServer::getServiceInfo()
{
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return RsServiceInfo(RS_SERVICE_TYPE_FILE_TRANSFER,
FILE_TRANSFER_APP_NAME,
FILE_TRANSFER_APP_MAJOR_VERSION,
FILE_TRANSFER_APP_MINOR_VERSION,
FILE_TRANSFER_MIN_MAJOR_VERSION,
FILE_TRANSFER_MIN_MINOR_VERSION);
}
void ftServer::setConfigDirectory(std::string path)
{
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mConfigPath = path;
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/* Must update the sub classes ... if they exist
* TODO.
*/
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std::string basecachedir = mConfigPath + "/cache";
std::string localcachedir = mConfigPath + "/cache/local";
std::string remotecachedir = mConfigPath + "/cache/remote";
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RsDirUtil::checkCreateDirectory(basecachedir) ;
RsDirUtil::checkCreateDirectory(localcachedir) ;
RsDirUtil::checkCreateDirectory(remotecachedir) ;
}
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/* Control Interface */
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/* add Config Items (Extra, Controller) */
void ftServer::addConfigComponents(p3ConfigMgr */*mgr*/)
{
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/* NOT SURE ABOUT THIS ONE */
}
const RsPeerId& ftServer::OwnId()
{
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static RsPeerId null_id ;
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if (mServiceCtrl)
return mServiceCtrl->getOwnId();
else
return null_id ;
}
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/* Final Setup (once everything is assigned) */
void ftServer::SetupFtServer()
{
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/* setup FiStore/Monitor */
//std::string localcachedir = mConfigPath + "/cache/local";
//std::string remotecachedir = mConfigPath + "/cache/remote";
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RsPeerId ownId = mServiceCtrl->getOwnId();
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/* search/extras List */
mFtExtra = new ftExtraList();
mFtSearch = new ftFileSearch();
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/* Transport */
mFtDataplex = new ftDataMultiplex(ownId, this, mFtSearch);
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/* make Controller */
mFtController = new ftController(mFtDataplex, mServiceCtrl, getServiceInfo().mServiceType);
mFtController -> setFtSearchNExtra(mFtSearch, mFtExtra);
std::string emergencySaveDir = RsAccounts::AccountDirectory();
std::string emergencyPartialsDir = RsAccounts::AccountDirectory();
if (emergencySaveDir != "")
{
emergencySaveDir += "/";
emergencyPartialsDir += "/";
}
emergencySaveDir += "Downloads";
emergencyPartialsDir += "Partials";
mFtController->setDownloadDirectory(emergencySaveDir);
mFtController->setPartialsDirectory(emergencyPartialsDir);
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/* complete search setup */
mFtSearch->addSearchMode(mFtExtra, RS_FILE_HINTS_EXTRA);
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mServiceCtrl->registerServiceMonitor(mFtController, getServiceInfo().mServiceType);
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return;
}
void ftServer::connectToFileDatabase(p3FileDatabase *fdb)
{
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mFileDatabase = fdb ;
mFtSearch->addSearchMode(fdb, RS_FILE_HINTS_LOCAL); // due to a bug in addSearchModule, modules can only be added one by one. Using | between flags wont work.
mFtSearch->addSearchMode(fdb, RS_FILE_HINTS_REMOTE);
}
void ftServer::connectToTurtleRouter(p3turtle *fts)
{
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mTurtleRouter = fts ;
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mFtController->setTurtleRouter(fts) ;
mFtController->setFtServer(this) ;
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mTurtleRouter->registerTunnelService(this) ;
}
void ftServer::StartupThreads()
{
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/* start up order - important for dependencies */
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/* self contained threads */
/* startup ExtraList Thread */
mFtExtra->start("ft extra lst");
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/* startup Monitor Thread */
/* startup the FileMonitor (after cache load) */
/* start it up */
mFileDatabase->startThreads();
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/* Controller thread */
mFtController->start("ft ctrl");
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/* Dataplex */
mFtDataplex->start("ft dataplex");
}
void ftServer::StopThreads()
{
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/* stop Dataplex */
mFtDataplex->join();
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/* stop Controller thread */
mFtController->join();
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/* self contained threads */
/* stop ExtraList Thread */
mFtExtra->join();
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delete (mFtDataplex);
mFtDataplex = NULL;
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delete (mFtController);
mFtController = NULL;
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delete (mFtExtra);
mFtExtra = NULL;
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/* stop Monitor Thread */
mFileDatabase->stopThreads();
delete mFileDatabase;
mFileDatabase = NULL ;
}
/***************************************************************/
/********************** RsFiles Interface **********************/
/***************************************************************/
/***************************************************************/
/********************** Controller Access **********************/
/***************************************************************/
bool ftServer::ResumeTransfers()
{
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mFtController->activate();
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return true;
}
bool ftServer::getFileData(const RsFileHash& hash, uint64_t offset, uint32_t& requested_size,uint8_t *data)
{
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return mFtDataplex->getFileData(hash, offset, requested_size,data);
}
bool ftServer::alreadyHaveFile(const RsFileHash& hash, FileInfo &info)
{
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return mFileDatabase->search(hash, RS_FILE_HINTS_LOCAL, info);
}
bool ftServer::FileRequest(const std::string& fname, const RsFileHash& hash, uint64_t size, const std::string& dest, TransferRequestFlags flags, const std::list<RsPeerId>& srcIds)
{
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#ifdef SERVER_DEBUG
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FTSERVER_DEBUG() << "Requesting " << fname << std::endl ;
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#endif
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if(!mFtController->FileRequest(fname, hash, size, dest, flags, srcIds))
return false ;
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return true ;
}
bool ftServer::activateTunnels(const RsFileHash& hash,uint32_t encryption_policy,TransferRequestFlags flags,bool onoff)
{
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RsFileHash hash_of_hash ;
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encryptHash(hash,hash_of_hash) ;
mEncryptedHashes.insert(std::make_pair(hash_of_hash,hash)) ;
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if(onoff)
{
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#ifdef SERVER_DEBUG
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FTSERVER_DEBUG() << "Activating tunnels for hash " << hash << std::endl;
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#endif
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if(flags & RS_FILE_REQ_ENCRYPTED)
{
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#ifdef SERVER_DEBUG
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FTSERVER_DEBUG() << " flags require end-to-end encryption. Requesting hash of hash " << hash_of_hash << std::endl;
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#endif
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mTurtleRouter->monitorTunnels(hash_of_hash,this,true) ;
}
if((flags & RS_FILE_REQ_UNENCRYPTED) && (encryption_policy != RS_FILE_CTRL_ENCRYPTION_POLICY_STRICT))
{
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#ifdef SERVER_DEBUG
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FTSERVER_DEBUG() << " flags require no end-to-end encryption. Requesting hash " << hash << std::endl;
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#endif
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mTurtleRouter->monitorTunnels(hash,this,true) ;
}
}
else
{
mTurtleRouter->stopMonitoringTunnels(hash_of_hash);
mTurtleRouter->stopMonitoringTunnels(hash);
}
return true ;
}
bool ftServer::setDestinationDirectory(const RsFileHash& hash,const std::string& directory)
{
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return mFtController->setDestinationDirectory(hash,directory);
}
bool ftServer::setDestinationName(const RsFileHash& hash,const std::string& name)
{
return mFtController->setDestinationName(hash,name);
}
bool ftServer::setChunkStrategy(const RsFileHash& hash,FileChunksInfo::ChunkStrategy s)
{
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return mFtController->setChunkStrategy(hash,s);
}
void ftServer::setDefaultChunkStrategy(FileChunksInfo::ChunkStrategy s)
{
mFtController->setDefaultChunkStrategy(s) ;
}
FileChunksInfo::ChunkStrategy ftServer::defaultChunkStrategy()
{
return mFtController->defaultChunkStrategy() ;
}
uint32_t ftServer::freeDiskSpaceLimit()const
{
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return mFtController->freeDiskSpaceLimit() ;
}
void ftServer::setFreeDiskSpaceLimit(uint32_t s)
{
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mFtController->setFreeDiskSpaceLimit(s) ;
}
void ftServer::setDefaultEncryptionPolicy(uint32_t s)
{
mFtController->setDefaultEncryptionPolicy(s) ;
}
uint32_t ftServer::defaultEncryptionPolicy()
{
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return mFtController->defaultEncryptionPolicy() ;
}
void ftServer::setMaxUploadSlotsPerFriend(uint32_t n)
{
mFtController->setMaxUploadsPerFriend(n) ;
}
uint32_t ftServer::getMaxUploadSlotsPerFriend()
{
return mFtController->getMaxUploadsPerFriend() ;
}
void ftServer::setFilePermDirectDL(uint32_t perm)
{
mFtController->setFilePermDirectDL(perm);
}
uint32_t ftServer::filePermDirectDL()
{
return mFtController->filePermDirectDL() ;
}
bool ftServer::FileCancel(const RsFileHash& hash)
{
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// Remove from both queue and ftController, by default.
//
mFtController->FileCancel(hash);
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return true ;
}
bool ftServer::FileControl(const RsFileHash& hash, uint32_t flags)
{
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return mFtController->FileControl(hash, flags);
}
bool ftServer::FileClearCompleted()
{
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return mFtController->FileClearCompleted();
}
void ftServer::setQueueSize(uint32_t s)
{
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mFtController->setQueueSize(s) ;
}
uint32_t ftServer::getQueueSize()
{
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return mFtController->getQueueSize() ;
}
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/* Control of Downloads Priority. */
bool ftServer::changeQueuePosition(const RsFileHash& hash, QueueMove mv)
{
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mFtController->moveInQueue(hash,mv) ;
return true ;
}
bool ftServer::changeDownloadSpeed(const RsFileHash& hash, int speed)
{
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mFtController->setPriority(hash, (DwlSpeed)speed);
return true ;
}
bool ftServer::getDownloadSpeed(const RsFileHash& hash, int & speed)
{
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DwlSpeed _speed;
int ret = mFtController->getPriority(hash, _speed);
if (ret)
speed = _speed;
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return ret;
}
bool ftServer::clearDownload(const RsFileHash& /*hash*/)
{
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return true ;
}
bool ftServer::FileDownloadChunksDetails(const RsFileHash& hash,FileChunksInfo& info)
{
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return mFtController->getFileDownloadChunksDetails(hash,info);
}
void ftServer::requestDirUpdate(void *ref)
{
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mFileDatabase->requestDirUpdate(ref) ;
}
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/* Directory Handling */
bool ftServer::setDownloadDirectory(std::string path)
{
return mFtController->setDownloadDirectory(path);
}
std::string ftServer::getDownloadDirectory()
{
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return mFtController->getDownloadDirectory();
}
bool ftServer::setPartialsDirectory(std::string path)
{
return mFtController->setPartialsDirectory(path);
}
std::string ftServer::getPartialsDirectory()
{
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return mFtController->getPartialsDirectory();
}
/***************************************************************/
/************************* Other Access ************************/
/***************************************************************/
bool ftServer::copyFile(const std::string& source, const std::string& dest)
{
return RsDirUtil::copyFile(source, dest);
}
void ftServer::FileDownloads(std::list<RsFileHash> &hashs)
{
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mFtController->FileDownloads(hashs);
}
bool ftServer::FileUploadChunksDetails(const RsFileHash& hash,const RsPeerId& peer_id,CompressedChunkMap& cmap)
{
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return mFtDataplex->getClientChunkMap(hash,peer_id,cmap);
}
bool ftServer::FileUploads(std::list<RsFileHash> &hashs)
{
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return mFtDataplex->FileUploads(hashs);
}
bool ftServer::FileDetails(const RsFileHash &hash, FileSearchFlags hintflags, FileInfo &info)
{
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if (hintflags & RS_FILE_HINTS_DOWNLOAD)
if(mFtController->FileDetails(hash, info))
return true ;
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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(mFtController->FileDetails(hash, info2))
info.fname = info2.fname ;
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return true ;
}
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if(hintflags & ~(RS_FILE_HINTS_UPLOAD | RS_FILE_HINTS_DOWNLOAD))
if(mFtSearch->search(hash, hintflags, info))
return true ;
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return false;
}
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RsItem *ftServer::create_item(uint16_t service,uint8_t item_type) const
{
#ifdef SERVER_DEBUG
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FTSERVER_DEBUG() << "p3turtle: deserialising packet: " << std::endl ;
#endif
if (RS_SERVICE_TYPE_TURTLE != service)
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{
FTSERVER_ERROR() << " Wrong type !!" << std::endl ;
return NULL; /* wrong type */
}
try
{
switch(item_type)
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{
case RS_TURTLE_SUBTYPE_FILE_REQUEST : return new RsTurtleFileRequestItem();
case RS_TURTLE_SUBTYPE_FILE_DATA : return new RsTurtleFileDataItem();
case RS_TURTLE_SUBTYPE_FILE_MAP_REQUEST : return new RsTurtleFileMapRequestItem();
case RS_TURTLE_SUBTYPE_FILE_MAP : return new RsTurtleFileMapItem();
case RS_TURTLE_SUBTYPE_CHUNK_CRC_REQUEST : return new RsTurtleChunkCrcRequestItem();
case RS_TURTLE_SUBTYPE_CHUNK_CRC : return new RsTurtleChunkCrcItem();
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default:
return NULL ;
}
}
catch(std::exception& e)
{
FTSERVER_ERROR() << "(EE) deserialisation error in " << __PRETTY_FUNCTION__ << ": " << e.what() << std::endl;
return NULL ;
}
}
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bool ftServer::isEncryptedSource(const RsPeerId& virtual_peer_id)
{
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RS_STACK_MUTEX(srvMutex) ;
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return mEncryptedPeerIds.find(virtual_peer_id) != mEncryptedPeerIds.end();
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}
void ftServer::addVirtualPeer(const TurtleFileHash& hash,const TurtleVirtualPeerId& virtual_peer_id,RsTurtleGenericTunnelItem::Direction dir)
{
#ifdef SERVER_DEBUG
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FTSERVER_DEBUG() << "adding virtual peer. Direction=" << dir << ", hash=" << hash << ", vpid=" << virtual_peer_id << std::endl;
#endif
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RsFileHash real_hash ;
{
if(findRealHash(hash,real_hash))
{
RS_STACK_MUTEX(srvMutex) ;
mEncryptedPeerIds[virtual_peer_id] = hash ;
}
else
real_hash = hash;
}
if(dir == RsTurtleGenericTunnelItem::DIRECTION_SERVER)
{
#ifdef SERVER_DEBUG
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FTSERVER_DEBUG() << " direction is SERVER. Adding file source for end-to-end encrypted tunnel for real hash " << real_hash << ", virtual peer id = " << virtual_peer_id << std::endl;
#endif
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mFtController->addFileSource(real_hash,virtual_peer_id) ;
}
}
void ftServer::removeVirtualPeer(const TurtleFileHash& hash,const TurtleVirtualPeerId& virtual_peer_id)
{
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RsFileHash real_hash ;
if(findRealHash(hash,real_hash))
mFtController->removeFileSource(real_hash,virtual_peer_id) ;
else
mFtController->removeFileSource(hash,virtual_peer_id) ;
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RS_STACK_MUTEX(srvMutex) ;
mEncryptedPeerIds.erase(virtual_peer_id) ;
}
bool ftServer::handleTunnelRequest(const RsFileHash& hash,const RsPeerId& peer_id)
{
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FileInfo info ;
RsFileHash real_hash ;
bool found = false ;
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if(FileDetails(hash, RS_FILE_HINTS_NETWORK_WIDE | RS_FILE_HINTS_LOCAL | RS_FILE_HINTS_EXTRA | RS_FILE_HINTS_SPEC_ONLY, info))
{
if(info.transfer_info_flags & RS_FILE_REQ_ENCRYPTED)
{
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#ifdef SERVER_DEBUG
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FTSERVER_DEBUG() << "handleTunnelRequest: openning encrypted FT tunnel for H(H(F))=" << hash << " and H(F)=" << info.hash << std::endl;
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#endif
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RS_STACK_MUTEX(srvMutex) ;
mEncryptedHashes[hash] = info.hash;
real_hash = info.hash ;
}
else
real_hash = hash ;
found = true ;
}
else // try to see if we're already swarming the file
{
{
RS_STACK_MUTEX(srvMutex) ;
std::map<RsFileHash,RsFileHash>::const_iterator it = mEncryptedHashes.find(hash) ;
if(it != mEncryptedHashes.end())
real_hash = it->second ;
else
real_hash = hash ;
}
if(FileDetails(real_hash,RS_FILE_HINTS_DOWNLOAD,info))
{
// This file is currently being downloaded. Let's look if we already have a chunk or not. If not, no need to
// share the file!
FileChunksInfo info2 ;
if(rsFiles->FileDownloadChunksDetails(hash, info2))
for(uint32_t i=0;i<info2.chunks.size();++i)
if(info2.chunks[i] == FileChunksInfo::CHUNK_DONE)
{
found = true ;
if(info.transfer_info_flags & RS_FILE_REQ_ANONYMOUS_ROUTING)
info.storage_permission_flags = DIR_FLAGS_ANONYMOUS_DOWNLOAD ; // this is to allow swarming
break ;
}
}
}
if(found && mFtController->defaultEncryptionPolicy() == RS_FILE_CTRL_ENCRYPTION_POLICY_STRICT && hash == real_hash)
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{
#ifdef SERVER_DEBUG
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std::cerr << "(WW) rejecting file transfer for hash " << hash << " because the hash is not encrypted and encryption policy requires it." << std::endl;
#endif
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return false ;
}
#ifdef SERVER_DEBUG
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FTSERVER_DEBUG() << "ftServer: performing local hash search for hash " << hash << std::endl;
if(found)
{
FTSERVER_DEBUG() << "Found hash: " << std::endl;
FTSERVER_DEBUG() << " hash = " << real_hash << std::endl;
FTSERVER_DEBUG() << " peer = " << peer_id << std::endl;
FTSERVER_DEBUG() << " flags = " << info.storage_permission_flags << std::endl;
FTSERVER_DEBUG() << " groups= " ;
for(std::list<RsNodeGroupId>::const_iterator it(info.parent_groups.begin());it!=info.parent_groups.end();++it)
FTSERVER_DEBUG() << (*it) << ", " ;
FTSERVER_DEBUG() << std::endl;
FTSERVER_DEBUG() << " clear = " << rsPeers->computePeerPermissionFlags(peer_id,info.storage_permission_flags,info.parent_groups) << std::endl;
}
#endif
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// 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.
//
found = found && (RS_FILE_HINTS_NETWORK_WIDE & rsPeers->computePeerPermissionFlags(peer_id,info.storage_permission_flags,info.parent_groups)) ;
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return found ;
}
/***************************************************************/
/******************* ExtraFileList Access **********************/
/***************************************************************/
bool ftServer::ExtraFileAdd(std::string fname, const RsFileHash& hash, uint64_t size, uint32_t period, TransferRequestFlags flags)
{
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return mFtExtra->addExtraFile(fname, hash, size, period, flags);
}
bool ftServer::ExtraFileRemove(const RsFileHash& hash, TransferRequestFlags flags)
{
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return mFtExtra->removeExtraFile(hash, flags);
}
bool ftServer::ExtraFileHash(std::string localpath, uint32_t period, TransferRequestFlags flags)
{
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return mFtExtra->hashExtraFile(localpath, period, flags);
}
bool ftServer::ExtraFileStatus(std::string localpath, FileInfo &info)
{
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return mFtExtra->hashExtraFileDone(localpath, info);
}
bool ftServer::ExtraFileMove(std::string fname, const RsFileHash& hash, uint64_t size, std::string destpath)
{
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return mFtExtra->moveExtraFile(fname, hash, size, destpath);
}
/***************************************************************/
/******************** Directory Listing ************************/
/***************************************************************/
int ftServer::RequestDirDetails(const RsPeerId& uid, const std::string& path, DirDetails &details)
{
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return mFileDatabase->RequestDirDetails(uid, path, details);
}
bool ftServer::findChildPointer(void *ref, int row, void *& result, FileSearchFlags flags)
{
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return mFileDatabase->findChildPointer(ref,row,result,flags) ;
}
int ftServer::RequestDirDetails(void *ref, DirDetails &details, FileSearchFlags flags)
{
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return mFileDatabase->RequestDirDetails(ref,details,flags) ;
}
uint32_t ftServer::getType(void *ref, FileSearchFlags /* flags */)
{
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return mFileDatabase->getType(ref) ;
}
/***************************************************************/
/******************** Search Interface *************************/
/***************************************************************/
int ftServer::SearchKeywords(std::list<std::string> keywords, std::list<DirDetails> &results,FileSearchFlags flags)
{
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return mFileDatabase->SearchKeywords(keywords, results,flags,RsPeerId());
}
int ftServer::SearchKeywords(std::list<std::string> keywords, std::list<DirDetails> &results,FileSearchFlags flags,const RsPeerId& peer_id)
{
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return mFileDatabase->SearchKeywords(keywords, results,flags,peer_id);
}
int ftServer::SearchBoolExp(RsRegularExpression::Expression * exp, std::list<DirDetails> &results,FileSearchFlags flags)
{
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return mFileDatabase->SearchBoolExp(exp, results,flags,RsPeerId());
}
int ftServer::SearchBoolExp(RsRegularExpression::Expression * exp, std::list<DirDetails> &results,FileSearchFlags flags,const RsPeerId& peer_id)
{
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return mFileDatabase->SearchBoolExp(exp,results,flags,peer_id) ;
}
int ftServer::getSharedDirStatistics(const RsPeerId& pid, SharedDirStats& stats)
{
return mFileDatabase->getSharedDirStatistics(pid,stats) ;
}
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/***************************************************************/
/*************** Local Shared Dir Interface ********************/
/***************************************************************/
bool ftServer::ConvertSharedFilePath(std::string path, std::string &fullpath)
{
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return mFileDatabase->convertSharedFilePath(path, fullpath);
}
void ftServer::updateSinceGroupPermissionsChanged()
{
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mFileDatabase->forceSyncWithPeers();
}
void ftServer::ForceDirectoryCheck()
{
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mFileDatabase->forceDirectoryCheck();
return;
}
bool ftServer::InDirectoryCheck()
{
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return mFileDatabase->inDirectoryCheck();
}
bool ftServer::getSharedDirectories(std::list<SharedDirInfo> &dirs)
{
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mFileDatabase->getSharedDirectories(dirs);
return true;
}
bool ftServer::setSharedDirectories(const std::list<SharedDirInfo>& dirs)
{
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mFileDatabase->setSharedDirectories(dirs);
return true;
}
bool ftServer::addSharedDirectory(const SharedDirInfo& dir)
{
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SharedDirInfo _dir = dir;
_dir.filename = RsDirUtil::convertPathToUnix(_dir.filename);
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std::list<SharedDirInfo> dirList;
mFileDatabase->getSharedDirectories(dirList);
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// check that the directory is not already in the list.
for(std::list<SharedDirInfo>::const_iterator it(dirList.begin());it!=dirList.end();++it)
if((*it).filename == _dir.filename)
return false ;
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// ok then, add the shared directory.
dirList.push_back(_dir);
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mFileDatabase->setSharedDirectories(dirList);
return true;
}
bool ftServer::updateShareFlags(const SharedDirInfo& info)
{
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mFileDatabase->updateShareFlags(info);
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return true ;
}
bool ftServer::removeSharedDirectory(std::string dir)
{
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dir = RsDirUtil::convertPathToUnix(dir);
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std::list<SharedDirInfo> dirList;
std::list<SharedDirInfo>::iterator it;
#ifdef SERVER_DEBUG
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FTSERVER_DEBUG() << "ftServer::removeSharedDirectory(" << dir << ")" << std::endl;
#endif
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mFileDatabase->getSharedDirectories(dirList);
#ifdef SERVER_DEBUG
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for(it = dirList.begin(); it != dirList.end(); ++it)
FTSERVER_DEBUG() << " existing: " << (*it).filename << std::endl;
#endif
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for(it = dirList.begin();it!=dirList.end() && (*it).filename != dir;++it) ;
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if(it == dirList.end())
{
FTSERVER_ERROR() << "(EE) ftServer::removeSharedDirectory(): Cannot Find Directory... Fail" << std::endl;
return false;
}
#ifdef SERVER_DEBUG
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FTSERVER_DEBUG() << " Updating Directories" << std::endl;
#endif
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dirList.erase(it);
mFileDatabase->setSharedDirectories(dirList);
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return true;
}
bool ftServer::getIgnoreLists(std::list<std::string>& ignored_prefixes, std::list<std::string>& ignored_suffixes,uint32_t& ignore_flags)
{
return mFileDatabase->getIgnoreLists(ignored_prefixes,ignored_suffixes,ignore_flags) ;
}
void ftServer::setIgnoreLists(const std::list<std::string>& ignored_prefixes, const std::list<std::string>& ignored_suffixes, uint32_t ignore_flags)
{
mFileDatabase->setIgnoreLists(ignored_prefixes,ignored_suffixes,ignore_flags) ;
}
bool ftServer::watchEnabled() { return mFileDatabase->watchEnabled() ; }
int ftServer::watchPeriod() const { return mFileDatabase->watchPeriod()/60 ; }
bool ftServer::followSymLinks() const { return mFileDatabase->followSymLinks() ; }
bool ftServer::ignoreDuplicates() { return mFileDatabase->ignoreDuplicates() ; }
int ftServer::maxShareDepth() const { return mFileDatabase->maxShareDepth() ; }
void ftServer::setWatchEnabled(bool b) { mFileDatabase->setWatchEnabled(b) ; }
void ftServer::setWatchPeriod(int minutes) { mFileDatabase->setWatchPeriod(minutes*60) ; }
void ftServer::setFollowSymLinks(bool b) { mFileDatabase->setFollowSymLinks(b) ; }
void ftServer::setIgnoreDuplicates(bool ignore) { mFileDatabase->setIgnoreDuplicates(ignore); }
void ftServer::setMaxShareDepth(int depth) { mFileDatabase->setMaxShareDepth(depth) ; }
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void ftServer::togglePauseHashingProcess() { mFileDatabase->togglePauseHashingProcess() ; }
bool ftServer::hashingProcessPaused() { return mFileDatabase->hashingProcessPaused() ; }
bool ftServer::getShareDownloadDirectory()
{
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std::list<SharedDirInfo> dirList;
mFileDatabase->getSharedDirectories(dirList);
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std::string dir = mFtController->getDownloadDirectory();
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// check if the download directory is in the list.
for (std::list<SharedDirInfo>::const_iterator it(dirList.begin()); it != dirList.end(); ++it)
if ((*it).filename == dir)
return true;
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return false;
}
bool ftServer::shareDownloadDirectory(bool share)
{
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if (share)
{
/* Share */
SharedDirInfo inf ;
inf.filename = mFtController->getDownloadDirectory();
inf.shareflags = DIR_FLAGS_ANONYMOUS_DOWNLOAD ;
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return addSharedDirectory(inf);
}
else
{
/* Unshare */
std::string dir = mFtController->getDownloadDirectory();
return removeSharedDirectory(dir);
}
}
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/***************************************************************/
/****************** End of RsFiles Interface *******************/
/***************************************************************/
//bool ftServer::loadConfigMap(std::map<std::string, std::string> &/*configMap*/)
//{
// return true;
//}
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/***************************************************************/
/********************** Data Flow **********************/
/***************************************************************/
bool ftServer::sendTurtleItem(const RsPeerId& peerId,const RsFileHash& hash,RsTurtleGenericTunnelItem *item)
{
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// we cannot look in the encrypted hash map, since the same hash--on this side of the FT--can be used with both
// encrypted and unencrypted peers ids. So the information comes from the virtual peer Id.
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RsFileHash encrypted_hash;
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if(findEncryptedHash(peerId,encrypted_hash))
{
// we encrypt the item
#ifdef SERVER_DEBUG
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FTSERVER_DEBUG() << "Sending turtle item to peer ID " << peerId << " using encrypted tunnel." << std::endl;
#endif
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RsTurtleGenericDataItem *encrypted_item ;
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if(!encryptItem(item, hash, encrypted_item))
return false ;
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delete item ;
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mTurtleRouter->sendTurtleData(peerId,encrypted_item) ;
}
else
{
#ifdef SERVER_DEBUG
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FTSERVER_DEBUG() << "Sending turtle item to peer ID " << peerId << " using non uncrypted tunnel." << std::endl;
#endif
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mTurtleRouter->sendTurtleData(peerId,item) ;
}
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return true ;
}
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/* Client Send */
bool ftServer::sendDataRequest(const RsPeerId& peerId, const RsFileHash& hash, uint64_t size, uint64_t offset, uint32_t chunksize)
{
#ifdef SERVER_DEBUG
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FTSERVER_DEBUG() << "ftServer::sendDataRequest() to peer " << peerId << " for hash " << hash << ", offset=" << offset << ", chunk size="<< chunksize << std::endl;
#endif
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if(mTurtleRouter->isTurtlePeer(peerId))
{
RsTurtleFileRequestItem *item = new RsTurtleFileRequestItem ;
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item->chunk_offset = offset ;
item->chunk_size = chunksize ;
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sendTurtleItem(peerId,hash,item) ;
}
else
{
/* create a packet */
/* push to networking part */
RsFileTransferDataRequestItem *rfi = new RsFileTransferDataRequestItem();
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/* id */
rfi->PeerId(peerId);
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/* file info */
rfi->file.filesize = size;
rfi->file.hash = hash; /* ftr->hash; */
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/* offsets */
rfi->fileoffset = offset; /* ftr->offset; */
rfi->chunksize = chunksize; /* ftr->chunk; */
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sendItem(rfi);
}
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return true;
}
bool ftServer::sendChunkMapRequest(const RsPeerId& peerId,const RsFileHash& hash,bool is_client)
{
#ifdef SERVER_DEBUG
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FTSERVER_DEBUG() << "ftServer::sendChunkMapRequest() to peer " << peerId << " for hash " << hash << std::endl;
#endif
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if(mTurtleRouter->isTurtlePeer(peerId))
{
RsTurtleFileMapRequestItem *item = new RsTurtleFileMapRequestItem ;
sendTurtleItem(peerId,hash,item) ;
}
else
{
/* create a packet */
/* push to networking part */
RsFileTransferChunkMapRequestItem *rfi = new RsFileTransferChunkMapRequestItem();
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/* id */
rfi->PeerId(peerId);
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/* file info */
rfi->hash = hash; /* ftr->hash; */
rfi->is_client = is_client ;
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sendItem(rfi);
}
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return true ;
}
bool ftServer::sendChunkMap(const RsPeerId& peerId,const RsFileHash& hash,const CompressedChunkMap& map,bool is_client)
{
#ifdef SERVER_DEBUG
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FTSERVER_DEBUG() << "ftServer::sendChunkMap() to peer " << peerId << " for hash " << hash << std::endl;
#endif
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if(mTurtleRouter->isTurtlePeer(peerId))
{
RsTurtleFileMapItem *item = new RsTurtleFileMapItem ;
item->compressed_map = map ;
sendTurtleItem(peerId,hash,item) ;
}
else
{
/* create a packet */
/* push to networking part */
RsFileTransferChunkMapItem *rfi = new RsFileTransferChunkMapItem();
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/* id */
rfi->PeerId(peerId);
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/* file info */
rfi->hash = hash; /* ftr->hash; */
rfi->is_client = is_client; /* ftr->hash; */
rfi->compressed_map = map; /* ftr->hash; */
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sendItem(rfi);
}
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return true ;
}
bool ftServer::sendSingleChunkCRCRequest(const RsPeerId& peerId,const RsFileHash& hash,uint32_t chunk_number)
{
#ifdef SERVER_DEBUG
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FTSERVER_DEBUG() << "ftServer::sendSingleCRCRequest() to peer " << peerId << " for hash " << hash << ", chunk number=" << chunk_number << std::endl;
#endif
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if(mTurtleRouter->isTurtlePeer(peerId))
{
RsTurtleChunkCrcRequestItem *item = new RsTurtleChunkCrcRequestItem;
item->chunk_number = chunk_number ;
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sendTurtleItem(peerId,hash,item) ;
}
else
{
/* create a packet */
/* push to networking part */
RsFileTransferSingleChunkCrcRequestItem *rfi = new RsFileTransferSingleChunkCrcRequestItem();
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/* id */
rfi->PeerId(peerId);
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/* file info */
rfi->hash = hash; /* ftr->hash; */
rfi->chunk_number = chunk_number ;
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sendItem(rfi);
}
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return true ;
}
bool ftServer::sendSingleChunkCRC(const RsPeerId& peerId,const RsFileHash& hash,uint32_t chunk_number,const Sha1CheckSum& crc)
{
#ifdef SERVER_DEBUG
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FTSERVER_DEBUG() << "ftServer::sendSingleCRC() to peer " << peerId << " for hash " << hash << ", chunk number=" << chunk_number << std::endl;
#endif
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if(mTurtleRouter->isTurtlePeer(peerId))
{
RsTurtleChunkCrcItem *item = new RsTurtleChunkCrcItem;
item->chunk_number = chunk_number ;
item->check_sum = crc ;
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sendTurtleItem(peerId,hash,item) ;
}
else
{
/* create a packet */
/* push to networking part */
RsFileTransferSingleChunkCrcItem *rfi = new RsFileTransferSingleChunkCrcItem();
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/* id */
rfi->PeerId(peerId);
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/* file info */
rfi->hash = hash; /* ftr->hash; */
rfi->check_sum = crc;
rfi->chunk_number = chunk_number;
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sendItem(rfi);
}
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return true ;
}
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/* Server Send */
bool ftServer::sendData(const RsPeerId& peerId, const RsFileHash& hash, uint64_t size, uint64_t baseoffset, uint32_t chunksize, void *data)
{
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/* create a packet */
/* push to networking part */
uint32_t tosend = chunksize;
uint64_t offset = 0;
uint32_t chunk;
#ifdef SERVER_DEBUG
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FTSERVER_DEBUG() << "ftServer::sendData() to " << peerId << ", hash: " << hash << " offset: " << baseoffset << " chunk: " << chunksize << " data: " << data << std::endl;
#endif
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while(tosend > 0)
{
//static const uint32_t MAX_FT_CHUNK = 32 * 1024; /* 32K */
//static const uint32_t MAX_FT_CHUNK = 16 * 1024; /* 16K */
//
static const uint32_t MAX_FT_CHUNK = 8 * 1024; /* 16K */
/* 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 = rs_malloc(chunk) ;
if(item->chunk_data == NULL)
{
delete item;
return false;
}
memcpy(item->chunk_data,&(((uint8_t *) data)[offset]),chunk) ;
sendTurtleItem(peerId,hash,item) ;
}
else
{
RsFileTransferDataItem *rfd = new RsFileTransferDataItem();
/* 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);
sendItem(rfd);
/* print the data pointer */
#ifdef SERVER_DEBUG
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FTSERVER_DEBUG() << "ftServer::sendData() Packet: " << " offset: " << rfd->fd.file_offset << " chunk: " << chunk << " len: " << rfd->fd.binData.bin_len << " data: " << rfd->fd.binData.bin_data << std::endl;
#endif
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}
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offset += chunk;
tosend -= chunk;
}
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/* clean up data */
free(data);
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return true;
}
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// Encrypts the given item using aead-chacha20-poly1305
//
// The format is the following
//
// [encryption format] [random initialization vector] [encrypted data size] [encrypted data] [authentication tag]
// 4 bytes 12 bytes 4 bytes variable 16 bytes
//
// +-------------------- authenticated data part ----------------------+
//
//
// Encryption format:
// ae ad 01 01 : encryption using AEAD, format 01 (authed with Poly1305 ), version 01
// ae ad 02 01 : encryption using AEAD, format 02 (authed with HMAC Sha256), version 01
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//
//
void ftServer::deriveEncryptionKey(const RsFileHash& hash, uint8_t *key)
{
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// The encryption key is simply the 256 hash of the
SHA256_CTX sha_ctx ;
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if(SHA256_DIGEST_LENGTH != 32)
throw std::runtime_error("Warning: can't compute Sha1Sum with sum size != 32") ;
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SHA256_Init(&sha_ctx);
SHA256_Update(&sha_ctx, hash.toByteArray(), hash.SIZE_IN_BYTES);
SHA256_Final (key, &sha_ctx);
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}
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static const uint32_t ENCRYPTED_FT_INITIALIZATION_VECTOR_SIZE = 12 ;
static const uint32_t ENCRYPTED_FT_AUTHENTICATION_TAG_SIZE = 16 ;
static const uint32_t ENCRYPTED_FT_HEADER_SIZE = 4 ;
static const uint32_t ENCRYPTED_FT_EDATA_SIZE = 4 ;
static const uint8_t ENCRYPTED_FT_FORMAT_AEAD_CHACHA20_POLY1305 = 0x01 ;
static const uint8_t ENCRYPTED_FT_FORMAT_AEAD_CHACHA20_SHA256 = 0x02 ;
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bool ftServer::encryptItem(RsTurtleGenericTunnelItem *clear_item,const RsFileHash& hash,RsTurtleGenericDataItem *& encrypted_item)
{
#ifndef USE_NEW_METHOD
uint32_t item_serialized_size = size(clear_item) ;
RsTemporaryMemory data(item_serialized_size) ;
if(data == NULL)
return false ;
serialise(clear_item, data, &item_serialized_size);
uint8_t encryption_key[32] ;
deriveEncryptionKey(hash,encryption_key) ;
return p3turtle::encryptData(data,item_serialized_size,encryption_key,encrypted_item) ;
#else
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uint8_t initialization_vector[ENCRYPTED_FT_INITIALIZATION_VECTOR_SIZE] ;
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RSRandom::random_bytes(initialization_vector,ENCRYPTED_FT_INITIALIZATION_VECTOR_SIZE) ;
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#ifdef SERVER_DEBUG
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FTSERVER_DEBUG() << "ftServer::Encrypting ft item." << std::endl;
FTSERVER_DEBUG() << " random nonce : " << RsUtil::BinToHex(initialization_vector,ENCRYPTED_FT_INITIALIZATION_VECTOR_SIZE) << std::endl;
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#endif
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uint32_t item_serialized_size = size(clear_item) ;
uint32_t total_data_size = ENCRYPTED_FT_HEADER_SIZE + ENCRYPTED_FT_INITIALIZATION_VECTOR_SIZE + ENCRYPTED_FT_EDATA_SIZE + item_serialized_size + ENCRYPTED_FT_AUTHENTICATION_TAG_SIZE ;
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#ifdef SERVER_DEBUG
FTSERVER_DEBUG() << " clear part size : " << size(clear_item) << std::endl;
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FTSERVER_DEBUG() << " total item size : " << total_data_size << std::endl;
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#endif
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encrypted_item = new RsTurtleGenericDataItem ;
encrypted_item->data_bytes = rs_malloc( total_data_size ) ;
encrypted_item->data_size = total_data_size ;
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if(encrypted_item->data_bytes == NULL)
return false ;
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uint8_t *edata = (uint8_t*)encrypted_item->data_bytes ;
uint32_t edata_size = item_serialized_size;
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uint32_t offset = 0;
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edata[0] = 0xae ;
edata[1] = 0xad ;
edata[2] = ENCRYPTED_FT_FORMAT_AEAD_CHACHA20_SHA256 ; // means AEAD_chacha20_sha256
edata[3] = 0x01 ;
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offset += ENCRYPTED_FT_HEADER_SIZE;
uint32_t aad_offset = offset ;
uint32_t aad_size = ENCRYPTED_FT_INITIALIZATION_VECTOR_SIZE + ENCRYPTED_FT_EDATA_SIZE ;
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memcpy(&edata[offset], initialization_vector, ENCRYPTED_FT_INITIALIZATION_VECTOR_SIZE) ;
offset += ENCRYPTED_FT_INITIALIZATION_VECTOR_SIZE ;
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edata[offset+0] = (edata_size >> 0) & 0xff ;
edata[offset+1] = (edata_size >> 8) & 0xff ;
edata[offset+2] = (edata_size >> 16) & 0xff ;
edata[offset+3] = (edata_size >> 24) & 0xff ;
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offset += ENCRYPTED_FT_EDATA_SIZE ;
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uint32_t ser_size = (uint32_t)((int)total_data_size - (int)offset);
serialise(clear_item,&edata[offset], &ser_size);
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#ifdef SERVER_DEBUG
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FTSERVER_DEBUG() << " clear item : " << RsUtil::BinToHex(&edata[offset],std::min(50,(int)total_data_size-(int)offset)) << "(...)" << std::endl;
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#endif
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uint32_t clear_item_offset = offset ;
offset += edata_size ;
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uint32_t authentication_tag_offset = offset ;
assert(ENCRYPTED_FT_AUTHENTICATION_TAG_SIZE + offset == total_data_size) ;
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uint8_t encryption_key[32] ;
deriveEncryptionKey(hash,encryption_key) ;
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if(edata[2] == ENCRYPTED_FT_FORMAT_AEAD_CHACHA20_POLY1305)
librs::crypto::AEAD_chacha20_poly1305(encryption_key,initialization_vector,&edata[clear_item_offset],edata_size, &edata[aad_offset],aad_size, &edata[authentication_tag_offset],true) ;
else if(edata[2] == ENCRYPTED_FT_FORMAT_AEAD_CHACHA20_SHA256)
librs::crypto::AEAD_chacha20_sha256 (encryption_key,initialization_vector,&edata[clear_item_offset],edata_size, &edata[aad_offset],aad_size, &edata[authentication_tag_offset],true) ;
else
return false ;
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#ifdef SERVER_DEBUG
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FTSERVER_DEBUG() << " encryption key : " << RsUtil::BinToHex(encryption_key,32) << std::endl;
FTSERVER_DEBUG() << " authen. tag : " << RsUtil::BinToHex(&edata[authentication_tag_offset],ENCRYPTED_FT_AUTHENTICATION_TAG_SIZE) << std::endl;
FTSERVER_DEBUG() << " final item : " << RsUtil::BinToHex(&edata[0],std::min(50u,total_data_size)) << "(...)" << std::endl;
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#endif
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return true ;
#endif
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}
// Decrypts the given item using aead-chacha20-poly1305
bool ftServer::decryptItem(const RsTurtleGenericDataItem *encrypted_item,const RsFileHash& hash,RsTurtleGenericTunnelItem *& decrypted_item)
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{
#ifndef USE_NEW_METHOD
unsigned char *data = NULL ;
uint32_t data_size = 0 ;
uint8_t encryption_key[32] ;
deriveEncryptionKey(hash,encryption_key) ;
if(!p3turtle::decryptItem(encrypted_item,encryption_key,data,data_size))
{
FTSERVER_ERROR() << "Cannot decrypt data!" << std::endl;
if(data)
free(data) ;
return false ;
}
decrypted_item = dynamic_cast<RsTurtleGenericTunnelItem*>(deserialise(data,&data_size)) ;
free(data);
return (decrypted_item != NULL);
#else
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uint8_t encryption_key[32] ;
deriveEncryptionKey(hash,encryption_key) ;
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uint8_t *edata = (uint8_t*)encrypted_item->data_bytes ;
uint32_t offset = 0;
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if(encrypted_item->data_size < ENCRYPTED_FT_HEADER_SIZE + ENCRYPTED_FT_INITIALIZATION_VECTOR_SIZE + ENCRYPTED_FT_EDATA_SIZE) return false ;
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if(edata[0] != 0xae) return false ;
if(edata[1] != 0xad) return false ;
if(edata[2] != ENCRYPTED_FT_FORMAT_AEAD_CHACHA20_POLY1305 && edata[2] != ENCRYPTED_FT_FORMAT_AEAD_CHACHA20_SHA256) return false ;
if(edata[3] != 0x01) return false ;
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offset += ENCRYPTED_FT_HEADER_SIZE ;
uint32_t aad_offset = offset ;
uint32_t aad_size = ENCRYPTED_FT_EDATA_SIZE + ENCRYPTED_FT_INITIALIZATION_VECTOR_SIZE ;
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uint8_t *initialization_vector = &edata[offset] ;
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#ifdef SERVER_DEBUG
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FTSERVER_DEBUG() << "ftServer::decrypting ft item." << std::endl;
FTSERVER_DEBUG() << " item data : " << RsUtil::BinToHex(edata,std::min(50u,encrypted_item->data_size)) << "(...)" << std::endl;
FTSERVER_DEBUG() << " hash : " << hash << std::endl;
FTSERVER_DEBUG() << " encryption key : " << RsUtil::BinToHex(encryption_key,32) << std::endl;
FTSERVER_DEBUG() << " random nonce : " << RsUtil::BinToHex(initialization_vector,ENCRYPTED_FT_INITIALIZATION_VECTOR_SIZE) << std::endl;
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#endif
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offset += ENCRYPTED_FT_INITIALIZATION_VECTOR_SIZE ;
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uint32_t edata_size = 0 ;
edata_size += ((uint32_t)edata[offset+0]) << 0 ;
edata_size += ((uint32_t)edata[offset+1]) << 8 ;
edata_size += ((uint32_t)edata[offset+2]) << 16 ;
edata_size += ((uint32_t)edata[offset+3]) << 24 ;
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if(edata_size + ENCRYPTED_FT_EDATA_SIZE + ENCRYPTED_FT_AUTHENTICATION_TAG_SIZE + ENCRYPTED_FT_INITIALIZATION_VECTOR_SIZE + ENCRYPTED_FT_HEADER_SIZE != encrypted_item->data_size)
{
FTSERVER_ERROR() << " ERROR: encrypted data size is " << edata_size << ", should be " << encrypted_item->data_size - (ENCRYPTED_FT_EDATA_SIZE + ENCRYPTED_FT_AUTHENTICATION_TAG_SIZE + ENCRYPTED_FT_INITIALIZATION_VECTOR_SIZE + ENCRYPTED_FT_HEADER_SIZE ) << std::endl;
return false ;
}
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offset += ENCRYPTED_FT_EDATA_SIZE ;
uint32_t clear_item_offset = offset ;
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uint32_t authentication_tag_offset = offset + edata_size ;
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#ifdef SERVER_DEBUG
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FTSERVER_DEBUG() << " authen. tag : " << RsUtil::BinToHex(&edata[authentication_tag_offset],ENCRYPTED_FT_AUTHENTICATION_TAG_SIZE) << std::endl;
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#endif
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bool result ;
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if(edata[2] == ENCRYPTED_FT_FORMAT_AEAD_CHACHA20_POLY1305)
result = librs::crypto::AEAD_chacha20_poly1305(encryption_key,initialization_vector,&edata[clear_item_offset],edata_size, &edata[aad_offset],aad_size, &edata[authentication_tag_offset],false) ;
else if(edata[2] == ENCRYPTED_FT_FORMAT_AEAD_CHACHA20_SHA256)
result = librs::crypto::AEAD_chacha20_sha256 (encryption_key,initialization_vector,&edata[clear_item_offset],edata_size, &edata[aad_offset],aad_size, &edata[authentication_tag_offset],false) ;
else
return false ;
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#ifdef SERVER_DEBUG
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FTSERVER_DEBUG() << " authen. result : " << result << std::endl;
FTSERVER_DEBUG() << " decrypted daya : " << RsUtil::BinToHex(&edata[clear_item_offset],std::min(50u,edata_size)) << "(...)" << std::endl;
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#endif
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if(!result)
{
FTSERVER_ERROR() << "(EE) decryption/authentication went wrong." << std::endl;
return false ;
}
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decrypted_item = dynamic_cast<RsTurtleGenericTunnelItem*>(deserialise(&edata[clear_item_offset],&edata_size)) ;
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if(decrypted_item == NULL)
return false ;
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return true ;
#endif
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}
bool ftServer::encryptHash(const RsFileHash& hash, RsFileHash& hash_of_hash)
{
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hash_of_hash = RsDirUtil::sha1sum(hash.toByteArray(),hash.SIZE_IN_BYTES);
return true ;
}
bool ftServer::findEncryptedHash(const RsPeerId& virtual_peer_id, RsFileHash& encrypted_hash)
{
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RS_STACK_MUTEX(srvMutex);
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std::map<RsPeerId,RsFileHash>::const_iterator it = mEncryptedPeerIds.find(virtual_peer_id) ;
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if(it != mEncryptedPeerIds.end())
{
encrypted_hash = it->second ;
return true ;
}
else
return false ;
}
bool ftServer::findRealHash(const RsFileHash& hash, RsFileHash& real_hash)
{
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RS_STACK_MUTEX(srvMutex);
std::map<RsFileHash,RsFileHash>::const_iterator it = mEncryptedHashes.find(hash) ;
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if(it != mEncryptedHashes.end())
{
real_hash = it->second ;
return true ;
}
else
return false ;
}
TurtleSearchRequestId ftServer::turtleSearch(const std::string& string_to_match)
{
return mTurtleRouter->turtleSearch(string_to_match) ;
}
TurtleSearchRequestId ftServer::turtleSearch(const RsRegularExpression::LinearizedExpression& expr)
{
return mTurtleRouter->turtleSearch(expr) ;
}
#warning we should do this here, but for now it is done by turtle router.
// // Dont delete the item. The client (p3turtle) is doing it after calling this.
// //
// void ftServer::receiveSearchResult(RsTurtleSearchResultItem *item)
// {
// RsTurtleFTSearchResultItem *ft_sr = dynamic_cast<RsTurtleFTSearchResultItem*>(item) ;
//
// if(ft_sr == NULL)
// {
// FTSERVER_ERROR() << "(EE) ftServer::receiveSearchResult(): item cannot be cast to a RsTurtleFTSearchResultItem" << std::endl;
// return ;
// }
//
// RsServer::notify()->notifyTurtleSearchResult(ft_sr->request_id,ft_sr->result) ;
// }
// Dont delete the item. The client (p3turtle) is doing it after calling this.
//
void ftServer::receiveTurtleData(const RsTurtleGenericTunnelItem *i,
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const RsFileHash& hash,
const RsPeerId& virtual_peer_id,
RsTurtleGenericTunnelItem::Direction direction)
{
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if(i->PacketSubType() == RS_TURTLE_SUBTYPE_GENERIC_DATA)
{
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#ifdef SERVER_DEBUG
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FTSERVER_DEBUG() << "Received encrypted data item. Trying to decrypt" << std::endl;
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#endif
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RsFileHash real_hash ;
if(!findRealHash(hash,real_hash))
{
FTSERVER_ERROR() << "(EE) Cannot find real hash for encrypted data item with H(H(F))=" << hash << ". This is unexpected." << std::endl;
return ;
}
RsTurtleGenericTunnelItem *decrypted_item ;
if(!decryptItem(dynamic_cast<const RsTurtleGenericDataItem *>(i),real_hash,decrypted_item))
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{
FTSERVER_ERROR() << "(EE) decryption error." << std::endl;
return ;
}
receiveTurtleData(decrypted_item, real_hash, virtual_peer_id,direction) ;
delete decrypted_item ;
return ;
}
switch(i->PacketSubType())
{
case RS_TURTLE_SUBTYPE_FILE_REQUEST:
{
const RsTurtleFileRequestItem *item = dynamic_cast<const RsTurtleFileRequestItem *>(i) ;
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if (item)
{
#ifdef SERVER_DEBUG
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FTSERVER_DEBUG() << "ftServer::receiveTurtleData(): received file data request for " << hash << " from peer " << virtual_peer_id << std::endl;
#endif
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getMultiplexer()->recvDataRequest(virtual_peer_id,hash,0,item->chunk_offset,item->chunk_size) ;
}
}
break ;
case RS_TURTLE_SUBTYPE_FILE_DATA :
{
const RsTurtleFileDataItem *item = dynamic_cast<const RsTurtleFileDataItem *>(i) ;
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if (item)
{
#ifdef SERVER_DEBUG
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FTSERVER_DEBUG() << "ftServer::receiveTurtleData(): received file data for " << hash << " from peer " << virtual_peer_id << std::endl;
#endif
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getMultiplexer()->recvData(virtual_peer_id,hash,0,item->chunk_offset,item->chunk_size,item->chunk_data) ;
const_cast<RsTurtleFileDataItem*>(item)->chunk_data = NULL ; // this prevents deletion in the destructor of RsFileDataItem, because data will be deleted
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// down _ft_server->getMultiplexer()->recvData()...in ftTransferModule::recvFileData
}
}
break ;
case RS_TURTLE_SUBTYPE_FILE_MAP :
{
const RsTurtleFileMapItem *item = dynamic_cast<const RsTurtleFileMapItem *>(i) ;
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if (item)
{
#ifdef SERVER_DEBUG
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FTSERVER_DEBUG() << "ftServer::receiveTurtleData(): received chunk map for hash " << hash << " from peer " << virtual_peer_id << std::endl;
#endif
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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<RsTurtleFileMapRequestItem *>(i) ;
#ifdef SERVER_DEBUG
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FTSERVER_DEBUG() << "ftServer::receiveTurtleData(): received chunkmap request for hash " << hash << " from peer " << virtual_peer_id << std::endl;
#endif
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getMultiplexer()->recvChunkMapRequest(virtual_peer_id,hash,direction == RsTurtleGenericTunnelItem::DIRECTION_CLIENT) ;
}
break ;
case RS_TURTLE_SUBTYPE_CHUNK_CRC :
{
const RsTurtleChunkCrcItem *item = dynamic_cast<const RsTurtleChunkCrcItem *>(i) ;
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if (item)
{
#ifdef SERVER_DEBUG
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FTSERVER_DEBUG() << "ftServer::receiveTurtleData(): received single chunk CRC for hash " << hash << " from peer " << virtual_peer_id << std::endl;
#endif
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getMultiplexer()->recvSingleChunkCRC(virtual_peer_id,hash,item->chunk_number,item->check_sum) ;
}
}
break ;
case RS_TURTLE_SUBTYPE_CHUNK_CRC_REQUEST:
{
const RsTurtleChunkCrcRequestItem *item = dynamic_cast<const RsTurtleChunkCrcRequestItem *>(i) ;
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if (item)
{
#ifdef SERVER_DEBUG
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FTSERVER_DEBUG() << "ftServer::receiveTurtleData(): received single chunk CRC request for hash " << hash << " from peer " << virtual_peer_id << std::endl;
#endif
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getMultiplexer()->recvSingleChunkCRCRequest(virtual_peer_id,hash,item->chunk_number) ;
}
}
break ;
default:
FTSERVER_ERROR() << "WARNING: Unknown packet type received: sub_id=" << reinterpret_cast<void*>(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()
{
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bool moreToTick = false ;
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if(handleIncoming())
moreToTick = true;
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static time_t last_law_priority_tasks_handling_time = 0 ;
time_t now = time(NULL) ;
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if(last_law_priority_tasks_handling_time + FILE_TRANSFER_LOW_PRIORITY_TASKS_PERIOD < now)
{
last_law_priority_tasks_handling_time = now ;
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mFtDataplex->deleteUnusedServers() ;
mFtDataplex->handlePendingCrcRequests() ;
mFtDataplex->dispatchReceivedChunkCheckSum() ;
}
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return moreToTick;
}
bool ftServer::checkUploadLimit(const RsPeerId& pid,const RsFileHash& hash)
{
// No need for this extra cost if the value means "unlimited"
#ifdef SERVER_DEBUG
std::cerr << "Checking upload limit for friend " << pid << " and hash " << hash << ": " ;
#endif
uint32_t max_ups = mFtController->getMaxUploadsPerFriend() ;
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RS_STACK_MUTEX(srvMutex) ;
if(max_ups == 0)
{
#ifdef SERVER_DEBUG
std::cerr << " no limit! returning true." << std::endl;
#endif
return true ;
}
#ifdef SERVER_DEBUG
std::cerr << " max=" << max_ups ;
#endif
// Find the latest records for this pid.
std::map<RsFileHash,time_t>& tmap(mUploadLimitMap[pid]) ;
std::map<RsFileHash,time_t>::iterator it ;
time_t now = time(NULL) ;
// If the limit has been decresed, we arbitrarily drop some ongoing slots.
while(tmap.size() > max_ups)
tmap.erase(tmap.begin()) ;
// Look in the upload record map. If it's not full, directly allocate a slot. If full, re-use an existing slot if a file is already cited.
if(tmap.size() < max_ups || (tmap.size()==max_ups && tmap.end() != (it = tmap.find(hash))))
{
#ifdef SERVER_DEBUG
std::cerr << " allocated slot for this hash => true" << std::endl;
#endif
tmap[hash] = now ;
return true ;
}
// There's no room in the used slots, but maybe some of them are not used anymore, in which case we remove them, which freeze a slot.
uint32_t cleaned = 0 ;
for(it = tmap.begin();it!=tmap.end() && cleaned<2;)
if(it->second + FILE_TRANSFER_MAX_DELAY_BEFORE_DROP_USAGE_RECORD < now)
{
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std::map<RsFileHash,time_t>::iterator tmp(it) ;
++tmp;
tmap.erase(it) ;
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it = tmp;
++cleaned ;
}
else
++it ;
if(cleaned > 0)
{
#ifdef SERVER_DEBUG
std::cerr << " cleaned up " << cleaned << " old hashes => true" << std::endl;
#endif
tmap[hash] = now ;
return true ;
}
#ifdef SERVER_DEBUG
std::cerr << " no slot for this hash => false" << std::endl;
#endif
return false ;
}
int ftServer::handleIncoming()
{
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// now File Input.
int nhandled = 0 ;
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RsItem *item = NULL ;
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while(NULL != (item = recvItem()))
{
nhandled++ ;
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switch(item->PacketSubType())
{
case RS_PKT_SUBTYPE_FT_DATA_REQUEST:
{
RsFileTransferDataRequestItem *f = dynamic_cast<RsFileTransferDataRequestItem*>(item) ;
if (f && checkUploadLimit(f->PeerId(),f->file.hash))
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{
#ifdef SERVER_DEBUG
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FTSERVER_DEBUG() << "ftServer::handleIncoming: received data request for hash " << f->file.hash << ", offset=" << f->fileoffset << ", chunk size=" << f->chunksize << std::endl;
#endif
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mFtDataplex->recvDataRequest(f->PeerId(), f->file.hash, f->file.filesize, f->fileoffset, f->chunksize);
}
}
break ;
case RS_PKT_SUBTYPE_FT_DATA:
{
RsFileTransferDataItem *f = dynamic_cast<RsFileTransferDataItem*>(item) ;
if (f)
{
#ifdef SERVER_DEBUG
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FTSERVER_DEBUG() << "ftServer::handleIncoming: received data for hash " << f->fd.file.hash << ", offset=" << f->fd.file_offset << ", chunk size=" << f->fd.binData.bin_len << std::endl;
#endif
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mFtDataplex->recvData(f->PeerId(), f->fd.file.hash, f->fd.file.filesize, f->fd.file_offset, f->fd.binData.bin_len, f->fd.binData.bin_data);
/* we've stolen the data part -> so blank before delete
*/
f->fd.binData.TlvShallowClear();
}
}
break ;
case RS_PKT_SUBTYPE_FT_CHUNK_MAP_REQUEST:
{
RsFileTransferChunkMapRequestItem *f = dynamic_cast<RsFileTransferChunkMapRequestItem*>(item) ;
if (f)
{
#ifdef SERVER_DEBUG
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FTSERVER_DEBUG() << "ftServer::handleIncoming: received chunkmap request for hash " << f->hash << ", client=" << f->is_client << std::endl;
#endif
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mFtDataplex->recvChunkMapRequest(f->PeerId(), f->hash,f->is_client) ;
}
}
break ;
case RS_PKT_SUBTYPE_FT_CHUNK_MAP:
{
RsFileTransferChunkMapItem *f = dynamic_cast<RsFileTransferChunkMapItem*>(item) ;
if (f)
{
#ifdef SERVER_DEBUG
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FTSERVER_DEBUG() << "ftServer::handleIncoming: received chunkmap for hash " << f->hash << ", client=" << f->is_client << /*", map=" << f->compressed_map <<*/ std::endl;
#endif
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mFtDataplex->recvChunkMap(f->PeerId(), f->hash,f->compressed_map,f->is_client) ;
}
}
break ;
case RS_PKT_SUBTYPE_FT_CHUNK_CRC_REQUEST:
{
RsFileTransferSingleChunkCrcRequestItem *f = dynamic_cast<RsFileTransferSingleChunkCrcRequestItem*>(item) ;
if (f)
{
#ifdef SERVER_DEBUG
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FTSERVER_DEBUG() << "ftServer::handleIncoming: received single chunk crc req for hash " << f->hash << ", chunk number=" << f->chunk_number << std::endl;
#endif
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mFtDataplex->recvSingleChunkCRCRequest(f->PeerId(), f->hash,f->chunk_number) ;
}
}
break ;
case RS_PKT_SUBTYPE_FT_CHUNK_CRC:
{
RsFileTransferSingleChunkCrcItem *f = dynamic_cast<RsFileTransferSingleChunkCrcItem *>(item) ;
if (f)
{
#ifdef SERVER_DEBUG
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FTSERVER_DEBUG() << "ftServer::handleIncoming: received single chunk crc req for hash " << f->hash << ", chunk number=" << f->chunk_number << ", checksum = " << f->check_sum << std::endl;
#endif
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mFtDataplex->recvSingleChunkCRC(f->PeerId(), f->hash,f->chunk_number,f->check_sum);
}
}
break ;
}
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delete item ;
}
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return nhandled;
}
/**********************************
**********************************
**********************************
*********************************/
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/***************************** CONFIG ****************************/
bool ftServer::addConfiguration(p3ConfigMgr *cfgmgr)
{
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/* add all the subbits to config mgr */
cfgmgr->addConfiguration("ft_database.cfg", mFileDatabase);
cfgmgr->addConfiguration("ft_extra.cfg", mFtExtra);
cfgmgr->addConfiguration("ft_transfers.cfg", mFtController);
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return true;
}