/* * "$Id: pqiarchive.cc,v 1.5 2007-03-21 18:45:41 rmf24 Exp $" * * 3P/PQI network interface for RetroShare. * * Copyright 2004-2006 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". * */ /* This is dependent on the sslroot at the moment. * -> as we need to create/restore references to the Person. * -> and store the signatures to do this. */ /******************************************************************* * pqiarchive provides an archive stream. * This stores RsItem + Person Reference + Timestamp, * * and allows Objects to be replayed or restored, * independently of the rest of the pqi system. * */ #include "pqi/pqiarchive.h" #include "serialiser/rsserial.h" #include #include #include #include "pqi/pqidebug.h" const int pqiarchivezone = 9326; struct pqiarchive_header { uint32_t type; uint32_t length; uint32_t ts; uint8_t personSig[PQI_PEERID_LENGTH]; }; const int PQIARCHIVE_TYPE_PQITEM = 0x0001; /* PeerId of PQInterface is not important ... as we are archiving * packets from other people... */ pqiarchive::pqiarchive(RsSerialiser *rss, BinInterface *bio_in, int bio_flags_in) :PQInterface(""), rsSerialiser(rss), bio(bio_in), bio_flags(bio_flags_in), nextPkt(NULL), nextPktTS(0), firstPktTS(0), initTS(0) { { std::ostringstream out; out << "pqiarchive::pqiarchive()"; out << " Initialisation!" << std::endl; pqioutput(PQL_DEBUG_ALL, pqiarchivezone, out.str()); } if (!bio_in) { std::ostringstream out; out << "pqiarchive::pqiarchive()"; out << " NULL bio, FATAL ERROR!" << std::endl; pqioutput(PQL_ALERT, pqiarchivezone, out.str()); exit(1); } return; } pqiarchive::~pqiarchive() { { std::ostringstream out; out << "pqiarchive::~pqiarchive()"; out << " Destruction!" << std::endl; pqioutput(PQL_DEBUG_ALL, pqiarchivezone, out.str()); } if (bio_flags & BIN_FLAGS_NO_CLOSE) { std::ostringstream out; out << "pqiarchive::~pqiarchive()"; out << " Not Closing BinInterface!" << std::endl; pqioutput(PQL_DEBUG_ALL, pqiarchivezone, out.str()); } else if (bio) { std::ostringstream out; out << "pqiarchive::~pqiarchive()"; out << " Deleting BinInterface!" << std::endl; pqioutput(PQL_DEBUG_ALL, pqiarchivezone, out.str()); delete bio; } if (rsSerialiser) delete rsSerialiser; if (nextPkt) { delete nextPkt; } return; } // Get/Send Items. int pqiarchive::SendItem(RsItem *si) { { std::ostringstream out; out << "pqiarchive::SendItem()" << std::endl; si -> print(out); pqioutput(PQL_DEBUG_BASIC, pqiarchivezone, out.str()); } // check if this is a writing bio. if (!(bio_flags & BIN_FLAGS_WRITEABLE)) { if (!(bio_flags & BIN_FLAGS_NO_DELETE)) delete si; return -1; } int ret = writePkt(si); return ret; /* 0 - failure, 1 - success*/ } RsItem *pqiarchive::GetItem() { { std::ostringstream out; out << "pqiarchive::GetItem()"; pqioutput(PQL_DEBUG_ALL, pqiarchivezone, out.str()); } // check if this is a reading bio. if (!(bio_flags & BIN_FLAGS_READABLE)) { std::ostringstream out; out << "pqiarchive::GetItem()"; out << "Error Not Readable" << std::endl; pqioutput(PQL_DEBUG_BASIC, pqiarchivezone, out.str()); return NULL; } // load if we dont have a packet. if (!nextPkt) { if (!readPkt(&nextPkt, &nextPktTS)) { std::ostringstream out; out << "pqiarchive::GetItem()"; out << "Failed to ReadPkt" << std::endl; pqioutput(PQL_DEBUG_BASIC, pqiarchivezone, out.str()); return NULL; } } if (!nextPkt) return NULL; /* if realtime - check delta */ bool rtnPkt = true; if ((realTime) && (initTS)) { int delta = time(NULL) - initTS; int delta2 = nextPktTS - firstPktTS; if (delta >= delta2) { rtnPkt = true; } else { rtnPkt = false; } } if (rtnPkt) { if (!initTS) { /* first read! */ initTS = time(NULL); firstPktTS = nextPktTS; } RsItem *outPkt = nextPkt; nextPkt = NULL; if (outPkt != NULL) { std::ostringstream out; out << "pqiarchive::GetItem() Returning:" << std::endl; outPkt -> print(out); pqioutput(PQL_DEBUG_BASIC, pqiarchivezone, out.str()); } return outPkt; } return NULL; } // // PQInterface int pqiarchive::tick() { { std::ostringstream out; out << "pqiarchive::tick()"; out << std::endl; } return 0; } int pqiarchive::status() { { std::ostringstream out; out << "pqiarchive::status()"; pqioutput(PQL_DEBUG_ALL, pqiarchivezone, out.str()); } return 0; } // /**************** HANDLE OUTGOING TRANSLATION + TRANSMISSION ******/ int pqiarchive::writePkt(RsItem *pqi) { { std::ostringstream out; out << "pqiarchive::writePkt()"; pqioutput(PQL_DEBUG_ALL, pqiarchivezone, out.str()); } uint32_t pktsize = rsSerialiser->size(pqi); void *ptr = malloc(pktsize); if (!(rsSerialiser->serialise(pqi, ptr, &pktsize))) { std::ostringstream out; out << "pqiarchive::writePkt() Null Pkt generated!"; out << std::endl; out << "Caused By: " << std::endl; pqi -> print(out); pqioutput(PQL_ALERT, pqiarchivezone, out.str()); free(ptr); if (!(bio_flags & BIN_FLAGS_NO_DELETE)) delete pqi; return 0; } /* extract the extra details */ uint32_t len = getRsItemSize(ptr); if (len != pktsize) { std::ostringstream out; out << "pqiarchive::writePkt() Length MisMatch: len: " << len; out << " != pktsize: " << pktsize; out << std::endl; out << "Caused By: " << std::endl; pqi -> print(out); pqioutput(PQL_ALERT, pqiarchivezone, out.str()); free(ptr); if (!(bio_flags & BIN_FLAGS_NO_DELETE)) delete pqi; return 0; } if (!(bio->cansend())) { std::ostringstream out; out << "pqiarchive::writePkt() BIO cannot write!"; out << std::endl; out << "Discarding: " << std::endl; pqi -> print(out); pqioutput(PQL_ALERT, pqiarchivezone, out.str()); free(ptr); if (!(bio_flags & BIN_FLAGS_NO_DELETE)) delete pqi; return 0; } // using the peerid from the item. if (pqi->PeerId().length() != PQI_PEERID_LENGTH) { std::ostringstream out; out << "pqiarchive::writePkt() Invalid peerId Length!"; out << std::endl; out << "Caused By: " << std::endl; pqi -> print(out); pqioutput(PQL_ALERT, pqiarchivezone, out.str()); free(ptr); if (!(bio_flags & BIN_FLAGS_NO_DELETE)) delete pqi; return 0; } std::ostringstream out; out << "Writing Pkt Header" << std::endl; struct pqiarchive_header hdr; hdr.type = PQIARCHIVE_TYPE_PQITEM; hdr.length = len; hdr.ts = time(NULL); memcpy(hdr.personSig, pqi->PeerId().c_str(), PQI_PEERID_LENGTH); // write packet header. if (sizeof(hdr) != bio->senddata(&hdr, sizeof(hdr))) { out << "Trouble writing header!"; out << std::endl; pqioutput(PQL_ALERT, pqiarchivezone, out.str()); free(ptr); if (!(bio_flags & BIN_FLAGS_NO_DELETE)) delete pqi; return 0; } out << "Writing Pkt Body" << std::endl; // write packet. if (len != bio->senddata(ptr, len)) { out << "Problems with Send Data!"; out << std::endl; pqioutput(PQL_ALERT, pqiarchivezone, out.str()); free(ptr); if (!(bio_flags & BIN_FLAGS_NO_DELETE)) delete pqi; return 0; } out << " Success!" << std::endl; pqioutput(PQL_DEBUG_BASIC, pqiarchivezone, out.str()); free(ptr); if (!(bio_flags & BIN_FLAGS_NO_DELETE)) delete pqi; return 1; } /* Reads a single packet from the input stream * gets the timestamp as well. * */ int pqiarchive::readPkt(RsItem **item_out, long *ts_out) { { std::ostringstream out; out << "pqiarchive::readPkt()"; pqioutput(PQL_DEBUG_ALL, pqiarchivezone, out.str()); } if ((!(bio->isactive())) || (!(bio->moretoread()))) { return 0; } // header struct pqiarchive_header hdr; // enough space to read any packet. int maxlen = getRsPktMaxSize(); void *block = malloc(maxlen); // initial read size: basic packet. int blen = getRsPktBaseSize(); int tmplen; /* read in the header */ if (sizeof(hdr) != bio->readdata(&hdr, sizeof(hdr))) { /* error */ pqioutput(PQL_WARNING, pqiarchivezone, "pqiarchive::readPkt() bad read(1)"); free(block); return 0; } /* we have the header */ // read the basic block (minimum packet size) if (blen != (tmplen = bio->readdata(block, blen))) { pqioutput(PQL_WARNING, pqiarchivezone, "pqiarchive::readPkt() bad read(2)"); free(block); return 0; } // workout how much more to read. int extralen = getRsItemSize(block) - blen; if (extralen > 0) { void *extradata = (void *) (((char *) block) + blen); if (extralen != (tmplen = bio->readdata(extradata, extralen))) { std::ostringstream out; out << "pqiarchive::readPkt() "; out << "Error Completing Read (read "; out << tmplen << "/" << extralen << ")" << std::endl; pqioutput(PQL_ALERT, pqiarchivezone, out.str()); free(block); return 0; } } // create packet, based on header. std::cerr << "Read Data Block -> Incoming Pkt("; std::cerr << blen + extralen << ")" << std::endl; uint32_t readbytes = extralen + blen; RsItem *item = rsSerialiser->deserialise(block, &readbytes); free(block); if (item == NULL) { pqioutput(PQL_ALERT, pqiarchivezone, "pqiarchive::readPkt() Failed to create Item from archive!"); return 0; } /* Cannot detect bad ids here anymore.... * but removed dependancy on the sslroot! */ std::string peerId = ""; for(int i = 0; i < PQI_PEERID_LENGTH; i++) { peerId += hdr.personSig[i]; } item->PeerId(peerId); *item_out = item; *ts_out = hdr.ts; return 1; } /**** Hashing Functions ****/ std::string pqiarchive::gethash() { return bio->gethash(); }